Gene expression monitoring for risk assessment of apple and pear fruit storage stress and physiological disorders

ABSTRACT

The present invention is a tool for diagnosis and prediction using biomarker-based risk assessment for chilling-related disorders of Rosaceous fruit crops including apple and pear. Provided are methodology and genes whose relative and absolute expression can accurately indicate disorder risk throughout the production and supply chain of these crops. This technology describes a necessary and novel management tool for stakeholders producing, servicing, or retailing these crops.

BACKGROUND OF THE INVENTION

Field of the Invention

The present invention is a biomarker-based risk assessment tool for predicting, diagnosing and distinguishing postharvest chilling-related physiological disorders of Rosaceous fruit crops, including apple and pear.

Background of the Invention

In the fruit industry, multiple browning disorders result in significant annual losses. A major obstacle to developing strategies that reduce such losses is the lack of methods for evaluating the risk of any of the multiple browning disorders materializing at any time during the twelve month storage and distribution period due to chilling stress imposed by the required cold storage. There have been no biomarkers identified that are useful to assess the effect of cold storage stress where the disorder is multifactorial and where the outcome will not become evident for many months. The risk is difficult to determine as existing tests aimed at estimating fruit quality are not linked with conditions associated with browning disorder risk. Thus, there is currently a need to develop more effective techniques for identification of endpoints for monitoring disorder progression during the storage and the distribution period and for evaluating the effectiveness of changes instituted in efforts to treat and control such disorders. To date, no consistently effective risk assessment exists targeting postharvest disorders and control measures are even lacking for many prevalent browning disorders.

SUMMARY OF THE INVENTION

We have identified biomarkers that predict, diagnose, and distinguish multiple postharvest browning disorders during the cold storage period, thereby enabling a strategy for assessing risk for the occurrence of multiple browning disorders throughout the cold storage and distribution periods and for adjusting controls and marketing strategies to reduce product loss.

In accordance with this discovery, it is an object of the invention to provide a method of using biomarkers to identify stages of the progression of the multiple browning disorders soft scald, soggy breakdown, firm flesh browning, external CO₂ injury and superficial scald during the cold storage period as part of a strategy of risk assessment in order to facilitate storage and supply chain management decisions.

It is an object of the invention to provide measurable metabolites and identified biomarkers (expressed gene sequences reflecting mRNA changes) that can be monitored to assess risk of storage disorder development as changes in levels of multiple expressed genes precede browning disorder development by weeks or months.

It is a further object of the invention to provide biomarker profiles whose relative and absolute expression can accurately predict and diagnose disorder risk throughout the production and supply chain of these crops.

It is another object of the invention to monitor biomarker levels in apple and pear tissues throughout the entire growing and supply chain as a means to predict and diagnose and assess risk for disorder development, to check effectiveness of control strategies, and to adjust disorder control or marketing strategies in order to avoid losses and thereby provide a more consistent, high quality product to consumers.

It is an additional object of the invention to provide a biomarker-based diagnostic tool as a necessary and novel management tool for stakeholders producing, servicing, or retailing these crops.

It is an additional object of the invention to provide such monitoring strategies in order to provide effective treatment and control practices that can be monitored by reliance on the same biomarkers as indicators of their effect on maintenance of fruit quality with the result that previously employed crop protectant applications or energy input into the storage environment are no longer necessary.

Other objects and advantages of this invention will become readily apparent from the ensuing description.

BRIEF DESCRIPTION OF THE DRAWINGS

The patent or application file contains at least one drawing executed in color. Copies of this patent or patent application publication with color drawing(s) will be provided by the U.S. Patent and Trademark Office upon request and payment of the necessary fee.

FIGS. 1A-1E depict examples of chilling-related postharvest physiological disorders of apple. These disorders are physiologically and etiologically distinct. Superficial scald (FIG. 1A) and firm flesh browning (FIG. 1B) were chosen to discover risk assessment biomarkers for late-term disorders; soft scald (FIG. 1C), soggy breakdown (FIG. 1D), and CO₂ injury (FIG. 1E) for early term disorders.

FIG. 2 depicts usage of the combination of harvest maturity and orchard incidence variability to discover risk assessment biomarkers for soft scald and soggy breakdown (shown in FIGS. 1C and 1D) and other early-term physiological storage disorders of apple and other Rosaceous fruit crops. Soft scald was categorized for statistical analysis on a scale of 0-3 (0=no incidence, 1=0-10%; 2=10-25% and 3=over 25%).

FIG. 3A shows superficial scald development of ‘Granny Smith’ apples. FIG. 3B depicts the usage of this combination to discover risk assessment biomarkers for this and other late-term physiological storage disorders of apple and other Rosaceous fruit crops. Control apples (no crop protectants applied) developed the highest incidence of superficial scald (FIG. 3B). This “pharmaceutical” contrast was used to discover risk assessment biomarkers for this and other late-term postharvest physiological disorders of Rosaceous fruit crops. Abbreviations (DPA, diphenylamine; 1-MCP, 1-methylcyclo-propene).

FIG. 4 depicts a summary of overall changes of gene expression in ‘Honeycrisp’ apple from high (green) and low (red) risk orchards. The left graph indicates that the largest impact on the transcriptome occurred between harvest and 2 weeks when cold storage was imposed.

FIG. 5 shows a metabolic-gene expression correlations network illustrating closely related metabolites (circles, representing a single metabolite) and gene model k-means clusters (triangles, representing many highly correlated genes). Nodes closely positioned and linked with red edges (lines) are highly, positively correlated. Nodes outlined in black are those highly correlated with methanol (R>0.700), a metabolite linked with superficial scald symptom development in ‘Granny Smith’. Risk assessment biomarker genes for superficial scald and other late-term disorders reside in the three highlighted gene model clusters.

FIG. 6 depicts a testing scheme for a disorder risk management system. If risk assessment biomarker levels are higher (or lower, see Table), decisions on how long a particular lot, alone or compared to other lots, should proceed through the supply chain can be made at key decision points based on the assessed risk for developing various browning disorders.

DETAILED DESCRIPTION OF THE INVENTION

Multiple browning disorders that lead to severe damage of the peel and cortex (FIG. 1) are a major problem in the fruit industry, causing low quality, inconsistent fruit products for the consumer and severe annual losses. Costs for protectants and additional energy costs also add to these losses. We have applied metabolic and gene expression profiling to discover biomarkers that can be used to predict, diagnose, and distinguish economically significant apple postharvest physiological disorders. Changes in levels of multiple expressed genes precede disorder development by weeks or months. The invention reduces product loss caused by multiple browning disorders by indicating which fruit have a high risk for developing the disorders and therefore can serve as a basis for storage and supply chain management decisions. We have identified metabolites and biomarkers (gene sequences reflecting mRNA changes) that can be monitored and used to assess risk of storage disorder development. These identified genes have not been previously associated with fruit chilling stress in Rosaceous crops. Further, these identified genes are very similar among Rosaceous fruit crops. Fruit response to stress events that lead to these collective disorders are detected and monitored using this approach. Unlike previous technologies, this invention targets storage risk assessment and only incorporates differences in fruit quality factors or fruit ripeness or maturity when these conditions impact disorder development. Monitoring biomarker levels in apple and pear tissues throughout the entire growing and supply chain provides a means to check effectiveness of control strategies, diagnose and assess risk for disorder development and, then, adjust disorder control or marketing strategies to avoid losses and provide a more consistent, high quality, disorder-free product to consumers. Integrated production approaches using this new tool potentially reduce unnecessary crop protectant application or energy input into the storage environment by reducing uncertainty of effectiveness of technologies presently in use.

Expression of risk assessment genes and metabolites levels are evaluated at key decision points from before harvest until the end of the supply chain. mRNA samples are extracted from peel or cortex tissue and the extract prepared depending upon the evaluation method to be employed. Expression levels of the given gene sequences can be monitored using RNAseq Solexa protocols (Solexa, Illumina, Hayward, Calif.). Expression levels are considered absolutely, depending upon the platform employed, and/or relatively, regardless of the platform and may be negatively or positively associated with disorder risk. Expression levels are considered in the context of mitigating conditions and stresses applied during the production chain and alongside levels of metabolites that less accurately indicate elevated risk for certain disorders.

Softscald and soggy breakdown (FIGS. 1C and 1D) are related but distinct disorders associated with low temperature storage. Soft scald symptoms are sharply defined brown lesions on the apple skin which can extend into the flesh (Snowdon, A. L. 1990. A Color Atlas of Post-harvest Diseases and Disorders of Fruits and Vegetables, Vol. 1. CRC Press, Boca Raton, Fla., 213 pp.; Watkins and Rosenberger. 2002. Cornell Fruit Handling and Storage Newsletter, 14pp. [Retrieved from the internet: hort.comell. edu/department/faculty/Watkins/extpubs.] while soggy breakdown is an internal disorder with soft, brown, sponge-like tissue, sometimes including most of the flesh (Watkins and Rosenberger, supra). Softscald and soggy breakdown are early-term severe chilling-provoked browning disorders of apple and pear peel and cortical tissue impacting multiple economically significant cultivars including ‘Honeycrisp’ and Jazz™. Typically symptoms appear following 0-2 months following cold storage imposition. Tests and validation of the biomarkers considered seasonal variation and multiple climatic, orchard, developmental, crop protectant, and storage factors employed using common industry practices. Risk assessment was performed at harvest and within 1-2 weeks following cold storage imposition. Evaluating risk assessment biomarker gene expression levels (Tables 1 and 2) provided an early, accurate assessment of disorder risk in these cultivars up to 4 weeks prior to symptom appearance. Comparing relative levels before and after cold storage imposition and/or among expressed biomarkers provided additional confidence in the assessment.

CO₂ injury is exhibited externally and/or internally depending on the cultivar and growing conditions (Colgan et al. 1999. Postharvest Biol. Technol. 16:223-231; Elgar et al. 1998. Hortsci. 33:719-722; Elgar et al. 1999. Hortsci. 34:305-309; Fernandez-Trujillo et al. 2001. J. Amer. Soc. Hort. Sci. 126:235-241; Watkins et al. 1997. HortScience 32:1242-1246). Susceptible cultivars include ‘Braeburn’, ‘Cortland’, ‘Empire’, ‘Fuji’, ‘Golden Delicious’, ‘Honeycrisp’, and ‘McIntosh’. Diphenylamine (DPA) reduces or prevents development of both external and internal CO₂ injury and, when DPA is not used, significant losses result (Argenta et al. 2002. Postharvest Biol. Technol. 24:13-24; Burmeister and Dilley.1995. Postharvest Biol. Technol. 6:1-7; Colgan et al. 1999, supra; Fernandez-Trujillo et al., supra). Unlike superficial scald, 1-methylcyclopropene (1-MCP) treatment exacerbates CO₂ injury (Fawbush et al. 2008. Postharvest Biol. Technol. 48:92-98). CO₂ injury has been associated with accumulation of succinate in the tissue of fruit exposed to high CO₂ concentrations (Hulme, A. C. 1956. Nature 178:218-219), but Fernandez-Trujillo et al. (supra) found similar levels of succinate in injured controls and non-injured fruit treated with DPA. Risk assessment biomarker gene expression levels (Table 3) change with disorder risk following cold storage inception caused by chilling and elevated CO₂ and mitigated by crop protectant and other orchard and storage factors.

Superficial scald is a late-term chilling-related peel browning disorder of multiple apple and pear cultivars; typically symptoms appear after at least 2 months cold storage (FIG. 3A) (Bain and Mercer. 1963. Aust. J. Biol. Sci. 16:442-449). Superficial scald is associated with oxidative stress ostensibly linked to the build-up of oxidation products of the sesquiterpene (E,E)-α-farnesene (Huelin and Coggiola. 1970. J. Sci. Food Agric. 21:584-589; Whitaker et al. 2000. Postharvest Biol. Technol. 20:231-241; Rowan et al. 2001. J. Agri. Food Chem. 49:2780-2787). Pre-storage treatment of apples with DPA inhibits oxidation of α-farnesene and largely prevents scald development (Huelin and Coggiola, supra). Moreover, exposure of apple fruit to the ethylene action inhibitor 1-MCP greatly curtails α-farnesene production and markedly reduces scald incidence and severity (Fan et al. 1999. J. Agri. Food Chem. 47:3063-3068; Rupasinghe et al. 2000. J. Hort. Sci. Biotech. 75:271-276; Watkins et al. 2000. Postharvest Biol. Technol. 19:17-32; Shaham et al. 2003. J. Am. Soc. Hort. Sci. 128:761-766). Controlled atmosphere storage (low oxygen) can reduce scald incidence and severity (Fidler et al. 1973. In: Commonwealth Agricultural Bureaux, England. Pp. 113-116; Lau, O. L. 1990. J. Am. Soc. Hortic. Sci. 115:959-961), but not consistently if risk is high. Symptoms of this disorder typically appear from 4 to 6 months after cold storage imposition and can be controlled during conventional production using multiple approaches and during organic production using controlled atmosphere storage. However, reduced acceptance of antioxidant crop protectants used to control superficial scald and inconsistent efficacy of control using controlled atmosphere storage assures that this disorder remains a significant annual economic world-wide consideration for producers of susceptible apple and pear cultivars, including ‘Granny Smith’ and ‘Delicious’. Risk assessment biomarker gene expression levels were different at harvest (Table 4) depending upon the risk of apples from individual orchards to develop the disorder. Other biomarkers (Table 5) increased dramatically during storage starting at 3 months prior to first symptom appearance in ‘Granny Smith’ apples, providing an early and accurate risk assessment of conditions evoked by production, crop protectant and storage conditions. Monitoring relative biomarker gene expression levels alongside oxidation of superficial scald-associated metabolites, such as α-farnesene and methanol, can improve assessment accuracy using this technology.

Firm flesh browning is considered a form of chilling injury that results in patterned darkening of the flesh. It is a long term problem of the ‘Empire’ cultivar. ‘Empire’ is considered highly desirable by the fresh cut apple industry and flesh browning is unacceptable. Increasing storage temperatures from 0° C. to 2° C. reduces the symptoms although unacceptable softening occurs at 3° C. 1-MCP treatment is now the industry norm to meet market requirements, but 1-MCP-treated fruit develop flesh browning at both low and high storage temperatures (Jung et al. 2011. Postharvest Biol. Technol. 59:219-226). DPA and other treatments that control flesh browning are ineffective in 1-MCP-treated fruit. These flesh browning symptoms are visually indistinguishable from those previously considered to be chilling injury. Risk assessment biomarker gene expression levels (Table 6) change with the risk of occurrence of the disorder following cold storage inception caused by chilling and mitigated by crop protectant and other orchard and storage factors.

Experimental evidence supports that expression levels of these risk assessment biomarkers change similarly with stresses that can lead to multiple early and late storage term disorders. Biomarker expression does not correlate with any traditional quality-associated phenotype such as firmness or flavor loss. Instead, biomarker expression specifically represents changes with stress and storage factors that lead to browning disorder development.

Apple [Malus sylvestris (L.) Mill var. domestica (Borkh.) Mansf.] was chosen as the model for discovering biomarkers for Rosaceous fruit postharvest browning disorders as different apple cultivars are susceptible to developing many distinct postharvest browning disorders of the peel and flesh, and our understanding of the controls and etiology of these disorders is best in apples. There is a high degree of gene homology among Rosaceous fruit crops, including pear. This and ripening and postharvest physiological similarities make risk assessment biomarkers behave similarly under high or low risk conditions.

The present invention provides improved systems and strategies for predicting the progression of multiple browning disorders. According to the present invention, soft scald, soggy breakdown, superficial scald, firm flesh browning and CO₂ injury of Rosaceous fruit may be predicted or diagnosed by obtaining a profile of biomarkers from a sample obtained from Rosaceous fruit tissue. The present invention is particularly useful for predicting and diagnosing soft scald, soggy breakdown, superficial scald, firm flesh browning and CO₂ injury during storage and distribution.

Biomarker profiles may be a ratio of two or more measurable aspects of a biomarker. A biomarker profile comprises at least one measurement, where the measurements can correspond to the same or different biomarkers. A biomarker profile may also comprise at least three, four, five, 10, 20, 30 or more measurements. The profile of biomarkers obtained from an individual apple tissue specimen, namely the candidate biomarker profile, is compared to a reference biomarker profile. The reference biomarker profile can be generated from one individual or a population of individuals at different time points during storage.

The reference biomarker profile and the candidate biomarker profiles that are compared in the methods of the present invention may be generated from the same population for the purpose of monitoring disorder progression. In this instance it would be expected that the candidate and reference profiles are generated from biological samples taken at different time points and compared to one another, i.e., the reference profile will be expression of the biomarker at the earlier time point and compared to the candidate's biomarker expression at the later time point. Such a comparison may be used, for example, to determine the risk status of developing a browning disorder in the individual tissue by repeated measurements over time. The reference biomarker profiles may be chosen from tissue of fruit that has a risk of a browning disorder or the reference biomarker profile may be generated from a healthy individual or population that is not at risk, i.e., those that are in a non-affected environment, in a controlled storage population, or in an environmental crop protected situation. In addition, it would be expected that the candidate and reference profiles are generated from biological samples taken from different orchard locations, reflecting environmental and disorder development differences, and compared to one another. i.e., the reference profile will be expression of the biomarker from a sample with known disorder development and compared to the candidates biomarker expression from another population.

The methods of the present invention comprise comparing a candidate biomarker profile with a reference biomarker profile. The present invention is based on the identification of new biomarkers of multiple browning disorders. A biomarker is useful if it is specific for a browning disorder and measurable. In particular, of the 63,541 genes screened for assessing risk for soft scald and soggy breakdown and CO₂ injury, the present invention provides the identity of 82 candidates found useful for assessing risk at-harvest (Table 1) and 494 for 2 week risk assessment of peel and/or cortex tissue (Table 2). Accordingly, in one aspect, the present invention provides for the identification, generation, and use of expression profiles of sets of genes selected from the genes disclosed herein.

TABLE 1 Accession numbers (Velasco et al., 2010; Retrieved from the Internet: Rosaceae.org) of biomarker genes for soft scald assessment at harvest. Elevated expression levels indicate orchards with a higher risk for developing these disorders. MDP0000848515 MDP0000238780 MDP0000260007 MDP0000153149 MDP0000585315 MDP0000273646 MDP0000216786 MDP0000180580 MDP0000737425 MDP0000298967 MDP0000808492 MDP0000273866 MDP0000353053 MDP0000910032 MDP0000145050 MDP0000263844 MDP0000158999 MDP0000547254 MDP0000196325 MDP0000224653 MDP0000321382 MDP0000270602 MDP0000233661 MDP0000665342 MDP0000246831 MDP0000823528 MDP0000408705 MDP0000518327 MDP0000291249 MDP0000154589 MDP0000202817 MDP0000590954 MDP0000312397 MDP0000213383 MDP0000529726 MDP0000312071 MDP0000639894 MDP0000307665 MDP0000183676 MDP0000754521 MDP0000797616 MDP0000818877 MDP0000782908 MDP0000266443 MDP0000562305 MDP0000228366 MDP0000361351 MDP0000737001 MDP0000412192 MDP0000223032 MDP0000149492 MDP0000264361 MDP0000125882 MDP0000498460 MDP0000163006 MDP0000225132 MDP0000329063 MDP0000170865 MDP0000665685 MDP0000196079 MDP0000200783 MDP0000182956 MDP0000862371 MDP0000321792 MDP0000441757 MDP0000313657 MDP0000599531 MDP0000297583 MDP0000272980 MDP0000317502 MDP0000268175 MDP0000722139 MDP0000637194 MDP0000125700 MDP0000287262 MDP0000745534 MDP0000164966 MDP0000389794 MDP0000318068 MDP0000322237 MDP0000225326 MDP0000125411

TABLE 2 Accession numbers (Velasco et al., 2010; Retrieved from the Internet: Rosaceae.org) of biomarker genes for soft scald assessment during cold storage following cold storage imposition. Higher or lower expression levels can result from cold stress resulting from storage imposition. Where lower expression is associated with risk, accession numbers are italicized. MDP0000675982 MDP0000202163 MDP0000219532 MDP0000568913 MDP0000313850 MDP0000391472 MDP0000273608 MDP0000727481 MDP0000244038 MDP0000131371 MDP0000133673 MDP0000225088 MDP0000143677 MDP0000150382 MDP0000286751 MDP0000272528 MDP0000312509 MDP0000173235 MDP0000282119 MDP0000172451 MDP0000846736 MDP0000818940 MDP0000320691 MDP0000434271 MDP0000231298 MDP0000263282 MDP0000910523 MDP0000203897 MDP0000276370 MDP0000270427 MDP0000281525 MDP0000463638 MDP0000150953 MDP0000446865 MDP0000122897 MDP0000287631 MDP0000463638 MDP0000215630 MDP0000252369 MDP0000124552 MDP0000283534 MDP0000259550 MDP0000385730 MDP0000156937 MDP0000250658 MDP0000252854 MDP0000031172 MDP0000226432 MDP0000230300 MDP0000179388 MDP0000618810 MDP0000167107 MDP0000415894 MDP0000467552 MDP0000249564 MDP0000632679 MDP0000146003 MDP0000154360 MDP0000252590 MDP0000698038 MDP0000119629 MDP0000250546 MDP0000220511 MDP0000314632 MDP0000758778 MDP0000376256 MDP0000320586 MDP0000336518 MDP0000181779 MDP0000204836 MDP0000560122 MDP0000157644 MDP0000376284 MDP0000156837 MDP0000242656 MDP0000175375 MDP0000203543 MDP0000944409 MDP0000577872 MDP0000325574 MDP0000146856 MDP0000179760 MDP0000376469 MDP0000273646 MDP0000300382 MDP0000945035 MDP0000171928 MDP0000399796 MDP0000121410 MDP0000481590 MDP0000176602 MDP0000717305 MDP0000124013 MDP0000603942 MDP0000858559 MDP0000298286 MDP0000208533 MDP0000135436 MDP0000944724 MDP0000129143 MDP0000165921 MDP0000235661 MDP0000181572 MDP0000121476 MDP0000466420 MDP0000152960 MDP0000306385 MDP0000804078 MDP0000568045 MDP0000703874 MDP0000153251 MDP0000206763 MDP0000133675 MDP0000159957 MDP0000240921 MDP0000129787 MDP0000270308 MDP0000707440 MDP0000171170 MDP0000621193 MDP0000473467 MDP0000221993 MDP0000178319 MDP0000269788 MDP0000273634 MDP0000940411 MDP0000533216 MDP0000326288 MDP0000293351 MDP0000727431 MDP0000162628 MDP0000278681 MDP0000452125 MDP0000310493 MDP0000187246 MDP0000843691 MDP0000257928 MDP0000462161 MDP0000121588 MDP0000167303 MDP0000302680 MDP0000276235 MDP0000828513 MDP0000585111 MDP0000203765 MDP0000610961 MDP0000233110 MDP0000135249 MDP0000201499 MDP0000231242 MDP0000499186 MDP0000306861 MDP0000912405 MDP0000886138 MDP0000252890 MDP0000221238 MDP0000504185 MDP0000911051 MDP0000243083 MDP0000932845 MDP0000302461 MDP0000177861 MDP0000142824 MDP0000148780 MDP0000145104 MDP0000172709 MDP0000058337 MDP0000209944 MDP0000131979 MDP0000222188 MDP0000321057 MDP0000124296 MDP0000166657 MDP0000132990 MDP0000770103 MDP0000206752 MDP0000319743 MDP0000725469 MDP0000253047 MDP0000734582 MDP0000867280 MDP0000211758 MDP0000466766 MDP0000280643 MDP0000469943 MDP0000137428 MDP0000312022 MDP0000233037 MDP0000922120 MDP0000250234 MDP0000279287 MDP0000218935 MDP0000224592 MDP0000610962 MDP0000389181 MDP0000275383 MDP0000143460 MDP0000858039 MDP0000129164 MDP0000188710 MDP0000241574 MDP0000933329 MDP0000119002 MDP0000455477 MDP0000313699 MDP0000217734 MDP0000269907 MDP0000163618 MDP0000202280 MDP0000403071 MDP0000193127 MDP0000178268 MDP0000322647 MDP0000046192 MDP0000227830 MDP0000192562 MDP0000158194 MDP0000219538 MDP0000169311 MDP0000204345 MDP0000607654 MDP0000274300 MDP0000730019 MDP0000121241 MDP0000145382 MDP0000174168 MDP0000228473 MDP0000296179 MDP0000120959 MDP0000182571 MDP0000214069 MDP0000620250 MDP0000168262 MDP0000163588 MDP0000564193 MDP0000172879 MDP0000285670 MDP0000765891 MDP0000613170 MDP0000755889 MDP0000182716 MDP0000282431 MDP0000220454 MDP0000423589 MDP0000276057 MDP0000234570 MDP0000920069 MDP0000284699 MDP0000239301 MDP0000873667 MDP0000159246 MDP0000896590 MDP0000204345 MDP0000137477 MDP0000180064 MDP0000766844 MDP0000364275 MDP0000632640 MDP0000126141 MDP0000928830 MDP0000757787 MDP0000319787 MDP0000228366 MDP0000417786 MDP0000145543 MDP0000228367 MDP0000799392 MDP0000545323 MDP0000639185 MDP0000192979 MDP0000239892 MDP0000883220 MDP0000181133 MDP0000758645 MDP0000187438 MDP0000305324 MDP0000641838 MDP0000126259 MDP0000252726 MDP0000225382 MDP0000873376 MDP0000197455 MDP0000744636 MDP0000569149 MDP0000364750 MDP0000175173 MDP0000263877 MDP0000247311 MDP0000199853 MDP0000274039 MDP0000799187 MDP0000552895 MDP0000225340 MDP0000267416 MDP0000461015 MDP0000196325 MDP0000235688 MDP0000398415 MDP0000223153 MDP0000176129 MDP0000255115 MDP0000733239 MDP0000163728 MDP0000385086 MDP0000295340 MDP0000223514 MDP0000296708 MDP0000488588 MDP0000803726 MDP0000273470 MDP0000134259 MDP0000308205 MDP0000754298 MDP0000298491 MDP0000797360 MDP0000270759 MDP0000191432 MDP0000293437 MDP0000489156 MDP0000400262 MDP0000140569 MDP0000221844 MDP0000225867 MDP0000310803 MDP0000284374 MDP0000303924 MDP0000724726 MDP0000228064 MDP0000646125 MDP0000709073 MDP0000122895 MDP0000392540 MDP0000128265 MDP0000315323 MDP0000279149 MDP0000243428 MDP0000319512 MDP0000524677 MDP0000287199 MDP0000157932 MDP0000163088 MDP0000686661 MDP0000637142 MDP0000136933 MDP0000642530 MDP0000467241 MDP0000204212 MDP0000231619 MDP0000207937 MDP0000065186 MDP0000120398 MDP0000873235 MDP0000271479 MDP0000138275 MDP0000236176 MDP0000360077 MDP0000161521 MDP0000168076 MDP0000891353 MDP0000314606 MDP0000232589 MDP0000277370 MDP0000239442 MDP0000124881 MDP0000262367 MDP0000249502 MDP0000520097 MDP0000870230 MDP0000917844 MDP0000165325 MDP0000156727 MDP0000216267 MDP0000506697 MDP0000212628 MDP0000215235 MDP0000139194 MDP0000194823 MDP0000264406 MDP0000298280 MDP0000561738 MDP0000274685 MDP0000940086 MDP0000889787 MDP0000368098 MDP0000273126 MDP0000244593 MDP0000342041 MDP0000916486 MDP0000563592 MDP0000879217 MDP0000170568 MDP0000196064 MDP0000898951 MDP0000234503 MDP0000249248 MDP0000219876 MDP0000169170 MDP0000873427 MDP0000130994 MDP0000226838 MDP0000249858 MDP0000321157 MDP0000294840 MDP0000775468 MDP0000188052 MDP0000211229 MDP0000131731 MDP0000216027 MDP0000153185 MDP0000156246 MDP0000319315 MDP0000150429 MDP0000150710 MDP0000263844 MDP0000842137 MDP0000260116 MDP0000260377 MDP0000214906 MDP0000121783 MDP0000174971 MDP0000898232 MDP0000447975 MDP0000120330 MDP0000252488 MDP0000151767 MDP0000453114 MDP0000320239 MDP0000127732 MDP0000547788 MDP0000279576 MDP0000725984 MDP0000253102 MDP0000418187 MDP0000220129 MDP0000651801 MDP0000277459 MDP0000787701 MDP0000147201 MDP0000222196 MDP0000188054 MDP0000307795 MDP0000234782 MDP0000146449 MDP0000719275 MDP0000757641 MDP0000193241 MDP0000131486 MDP0000903417 MDP0000143473 MDP0000165187 MDP0000160077 MDP0000272522 MDP0000273225 MDP0000197624 MDP0000590974 MDP0000297123 MDP0000268258 MDP0000121830 MDP0000564318 MDP0000014856 MDP0000791166 MDP0000197330 MDP0000151362 MDP0000280632 MDP0000198015 MDP0000710467 MDP0000250386 MDP0000151457 MDP0000166159 MDP0000356821 MDP0000222944 MDP0000363287 MDP0000421679 MDP0000418062 MDP0000762756 MDP0000321469 MDP0000242205 MDP0000279018 MDP0000641544 MDP0000311618 MDP0000681634 MDP0000272640 MDP0000152774 MDP0000719559 MDP0000178043 MDP0000500159 MDP0000920394 MDP0000294531 MDP0000139291 MDP0000312998 MDP0000154049 MDP0000230727 MDP0000941000 MDP0000804427

Because superficial scald can be adequately controlled using appropriate storage conditions, indicating whether storage conditions are actually working or monitoring risk during storage is also a useful tool for this disorder.

External CO₂ injury browning disorder can be controlled using application of commercially used postharvest chemicals. We were able to use these methods to discover putative biomarkers, as different treatments following harvest induce contrasting disorder development. Controlled atmosphere combined with treatment of apples with 1-MCP (SmartFresh) following harvest enhances external CO₂ injury. In contrast postharvest treatment with the antioxidant diphenylamine (DPA) almost eliminates external CO₂ injury completely. Candidate biomarker genes from an RNAseq experiment were selected by pairwise comparison using the differential gene expression program edgeR (R, Bioconductor) with a p-value cut off of 0.05. Genes were selected and peel tissue collected from New York state grown ‘Empire’ apples, provoked by storage treatments that affect external CO₂ injury incidence. From a total of 63541 gene models, 2330 that expression changed at least 4-fold and that had an average expression RPKM value of at least 1 per sample were selected as potential predictive or diagnostic biomarkers for external CO₂ injury (Table 3).

TABLE 3 Accession numbers (Velasco et al., 2010; Retrieved from the Internet: Rosaceae.org) of biomarker genes for CO₂ injury assessment during cold storage following cold storage imposition. Higher or lower expression levels can result from cold stress resulting from storage imposition. MDP0000840536 MDP0000708692 MDP0000349942 MDP0000261740 MDP0000863792 MDP0000140151 MDP0000252752 MDP0000661951 MDP0000357718 MDP0000590966 MDP0000565270 MDP0000148686 MDP0000435842 MDP0000400084 MDP0000745805 MDP0000716794 MDP0000126361 MDP0000233319 MDP0000573540 MDP0000135191 MDP0000414314 MDP0000940411 MDP0000152673 MDP0000809337 MDP0000432471 MDP0000127630 MDP0000310700 MDP0000321031 MDP0000794258 MDP0000251180 MDP0000697676 MDP0000461015 MDP0000130797 MDP0000310582 MDP0000184143 MDP0000769492 MDP0000642253 MDP0000245702 MDP0000300161 MDP0000160197 MDP0000167683 MDP0000251957 MDP0000769493 MDP0000202184 MDP0000844682 MDP0000283288 MDP0000330474 MDP0000298689 MDP0000232865 MDP0000200896 MDP0000649783 MDP0000496027 MDP0000168735 MDP0000295392 MDP0000126481 MDP0000228366 MDP0000755567 MDP0000260404 MDP0000192733 MDP0000131763 MDP0000501957 MDP0000172296 MDP0000180012 MDP0000564079 MDP0000120347 MDP0000769764 MDP0000321302 MDP0000238081 MDP0000607920 MDP0000273201 MDP0000348107 MDP0000231748 MDP0000350778 MDP0000835211 MDP0000926304 MDP0000202781 MDP0000164134 MDP0000864747 MDP0000309314 MDP0000274714 MDP0000374881 MDP0000140878 MDP0000695737 MDP0000531811 MDP0000637737 MDP0000585462 MDP0000897962 MDP0000294677 MDP0000205306 MDP0000232535 MDP0000616079 MDP0000575740 MDP0000334047 MDP0000158089 MDP0000316698 MDP0000122792 MDP0000225088 MDP0000262337 MDP0000899351 MDP0000568045 MDP0000814899 MDP0000297123 MDP0000162529 MDP0000145449 MDP0000121243 MDP0000836784 MDP0000703737 MDP0000163032 MDP0000175918 MDP0000728167 MDP0000780353 MDP0000153630 MDP0000258775 MDP0000270052 MDP0000292031 MDP0000811831 MDP0000193401 MDP0000145401 MDP0000264666 MDP0000128562 MDP0000218910 MDP0000228176 MDP0000164159 MDP0000257243 MDP0000584042 MDP0000184567 MDP0000300836 MDP0000270727 MDP0000199022 MDP0000257423 MDP0000245234 MDP0000143312 MDP0000230950 MDP0000195885 MDP0000175169 MDP0000819881 MDP0000292266 MDP0000287234 MDP0000278762 MDP0000315857 MDP0000139058 MDP0000906293 MDP0000139113 MDP0000131377 MDP0000121656 MDP0000243935 MDP0000513880 MDP0000668095 MDP0000811129 MDP0000151884 MDP0000174273 MDP0000302905 MDP0000340590 MDP0000216937 MDP0000175691 MDP0000554377 MDP0000235569 MDP0000149492 MDP0000515505 MDP0000625754 MDP0000289999 MDP0000318069 MDP0000936075 MDP0000289026 MDP0000225132 MDP0000188790 MDP0000273963 MDP0000250047 MDP0000911067 MDP0000750914 MDP0000283036 MDP0000609114 MDP0000139609 MDP0000151152 MDP0000250547 MDP0000185723 MDP0000120398 MDP0000208739 MDP0000165172 MDP0000136104 MDP0000166477 MDP0000149146 MDP0000144125 MDP0000161521 MDP0000212760 MDP0000925058 MDP0000914171 MDP0000267956 MDP0000217146 MDP0000491512 MDP0000125631 MDP0000934638 MDP0000899071 MDP0000456521 MDP0000206902 MDP0000656707 MDP0000216907 MDP0000393617 MDP0000539956 MDP0000273759 MDP0000773525 MDP0000176185 MDP0000205727 MDP0000295542 MDP0000160662 MDP0000194046 MDP0000553140 MDP0000795356 MDP0000773851 MDP0000219415 MDP0000440922 MDP0000219737 MDP0000872868 MDP0000153375 MDP0000244335 MDP0000167207 MDP0000628470 MDP0000287302 MDP0000165830 MDP0000909081 MDP0000301787 MDP0000256960 MDP0000121815 MDP0000801340 MDP0000471879 MDP0000297197 MDP0000518858 MDP0000285427 MDP0000282119 MDP0000281791 MDP0000684928 MDP0000203930 MDP0000137441 MDP0000416548 MDP0000269872 MDP0000319795 MDP0000155229 MDP0000203128 MDP0000843913 MDP0000813278 MDP0000209432 MDP0000821066 MDP0000230682 MDP0000437672 MDP0000135865 MDP0000214714 MDP0000298230 MDP0000123467 MDP0000320589 MDP0000279576 MDP0000790420 MDP0000199390 MDP0000686661 MDP0000191457 MDP0000771693 MDP0000137929 MDP0000455634 MDP0000742797 MDP0000299682 MDP0000122086 MDP0000382336 MDP0000188275 MDP0000657944 MDP0000435717 MDP0000220458 MDP0000293343 MDP0000216662 MDP0000430367 MDP0000140394 MDP0000307780 MDP0000606470 MDP0000272179 MDP0000214380 MDP0000144836 MDP0000411498 MDP0000299114 MDP0000129505 MDP0000119032 MDP0000245553 MDP0000300969 MDP0000128924 MDP0000184324 MDP0000327390 MDP0000256650 MDP0000124197 MDP0000280508 MDP0000701552 MDP0000172234 MDP0000255705 MDP0000419297 MDP0000336281 MDP0000210484 MDP0000143660 MDP0000221346 MDP0000941000 MDP0000235028 MDP0000146360 MDP0000255115 MDP0000212239 MDP0000124626 MDP0000125038 MDP0000162215 MDP0000224489 MDP0000371737 MDP0000254260 MDP0000413077 MDP0000489444 MDP0000269861 MDP0000878181 MDP0000596458 MDP0000256360 MDP0000208899 MDP0000124716 MDP0000176147 MDP0000437279 MDP0000170826 MDP0000195916 MDP0000127244 MDP0000208332 MDP0000773268 MDP0000270057 MDP0000197981 MDP0000508081 MDP0000792088 MDP0000256573 MDP0000317819 MDP0000165198 MDP0000707302 MDP0000672440 MDP0000940313 MDP0000297584 MDP0000546169 MDP0000302068 MDP0000230940 MDP0000143357 MDP0000716315 MDP0000186193 MDP0000298528 MDP0000654738 MDP0000348394 MDP0000258454 MDP0000231674 MDP0000290156 MDP0000804427 MDP0000190809 MDP0000139758 MDP0000150081 MDP0000454027 MDP0000293264 MDP0000277068 MDP0000755113 MDP0000289661 MDP0000297071 MDP0000124233 MDP0000317303 MDP0000119754 MDP0000177125 MDP0000166457 MDP0000140678 MDP0000200419 MDP0000931048 MDP0000319179 MDP0000224431 MDP0000139028 MDP0000364675 MDP0000361353 MDP0000950218 MDP0000640549 MDP0000302650 MDP0000162788 MDP0000774112 MDP0000593536 MDP0000668828 MDP0000144634 MDP0000276765 MDP0000672088 MDP0000119015 MDP0000610729 MDP0000232665 MDP0000656720 MDP0000195878 MDP0000186841 MDP0000340025 MDP0000893506 MDP0000263349 MDP0000202137 MDP0000309068 MDP0000326734 MDP0000166059 MDP0000599133 MDP0000226432 MDP0000244561 MDP0000158129 MDP0000336276 MDP0000809280 MDP0000202555 MDP0000788690 MDP0000289784 MDP0000134020 MDP0000218691 MDP0000700018 MDP0000212527 MDP0000193777 MDP0000275619 MDP0000273394 MDP0000242744 MDP0000251531 MDP0000295241 MDP0000828736 MDP0000197184 MDP0000319265 MDP0000217322 MDP0000239967 MDP0000149950 MDP0000291544 MDP0000229001 MDP0000311801 MDP0000782464 MDP0000443502 MDP0000254468 MDP0000137339 MDP0000761113 MDP0000157124 MDP0000722229 MDP0000239624 MDP0000419841 MDP0000782908 MDP0000222391 MDP0000791177 MDP0000181436 MDP0000254705 MDP0000164538 MDP0000139773 MDP0000310693 MDP0000217451 MDP0000283089 MDP0000244211 MDP0000701557 MDP0000158963 MDP0000297529 MDP0000726534 MDP0000116244 MDP0000648218 MDP0000178020 MDP0000279360 MDP0000221281 MDP0000685403 MDP0000391210 MDP0000216638 MDP0000153265 MDP0000127652 MDP0000194823 MDP0000158751 MDP0000568244 MDP0000176965 MDP0000290970 MDP0000222176 MDP0000389331 MDP0000128423 MDP0000292097 MDP0000282029 MDP0000602139 MDP0000507853 MDP0000120819 MDP0000695093 MDP0000166359 MDP0000157538 MDP0000201196 MDP0000394554 MDP0000137705 MDP0000221160 MDP0000430909 MDP0000884108 MDP0000196894 MDP0000012541 MDP0000123675 MDP0000702868 MDP0000225524 MDP0000666539 MDP0000326576 MDP0000446865 MDP0000561738 MDP0000156478 MDP0000197455 MDP0000158194 MDP0000202716 MDP0000257005 MDP0000545337 MDP0000280042 MDP0000453190 MDP0000284608 MDP0000305094 MDP0000859430 MDP0000307957 MDP0000302024 MDP0000457093 MDP0000304781 MDP0000249561 MDP0000184866 MDP0000314694 MDP0000619608 MDP0000279942 MDP0000274298 MDP0000760357 MDP0000218810 MDP0000156135 MDP0000917005 MDP0000391122 MDP0000255223 MDP0000189976 MDP0000181572 MDP0000686666 MDP0000911144 MDP0000562587 MDP0000172149 MDP0000242500 MDP0000151981 MDP0000315827 MDP0000414607 MDP0000893203 MDP0000529739 MDP0000529682 MDP0000391355 MDP0000239474 MDP0000126570 MDP0000192511 MDP0000189013 MDP0000885511 MDP0000257614 MDP0000894895 MDP0000503774 MDP0000282354 MDP0000278196 MDP0000292980 MDP0000906812 MDP0000138090 MDP0000161920 MDP0000210616 MDP0000150305 MDP0000377710 MDP0000453571 MDP0000289339 MDP0000255255 MDP0000119517 MDP0000586415 MDP0000266930 MDP0000481065 MDP0000776042 MDP0000155233 MDP0000252784 MDP0000529756 MDP0000413399 MDP0000786540 MDP0000744273 MDP0000218640 MDP0000178782 MDP0000263161 MDP0000497569 MDP0000349941 MDP0000228686 MDP0000244591 MDP0000228919 MDP0000175282 MDP0000297583 MDP0000349972 MDP0000265041 MDP0000214237 MDP0000404331 MDP0000264173 MDP0000837613 MDP0000159166 MDP0000208661 MDP0000732602 MDP0000720974 MDP0000492898 MDP0000135220 MDP0000279433 MDP0000168728 MDP0000128887 MDP0000283384 MDP0000220527 MDP0000239442 MDP0000440721 MDP0000350340 MDP0000191157 MDP0000635134 MDP0000264639 MDP0000153419 MDP0000250546 MDP0000506346 MDP0000673070 MDP0000340502 MDP0000495793 MDP0000201129 MDP0000551192 MDP0000132621 MDP0000034165 MDP0000657456 MDP0000320827 MDP0000195559 MDP0000124372 MDP0000232846 MDP0000240641 MDP0000292060 MDP0000209689 MDP0000308395 MDP0000144167 MDP0000190474 MDP0000198332 MDP0000516217 MDP0000496152 MDP0000744636 MDP0000777336 MDP0000226088 MDP0000250737 MDP0000899392 MDP0000161016 MDP0000120430 MDP0000822752 MDP0000287919 MDP0000873235 MDP0000599685 MDP0000553127 MDP0000188052 MDP0000803862 MDP0000840947 MDP0000143487 MDP0000280105 MDP0000322632 MDP0000277831 MDP0000127834 MDP0000569069 MDP0000210022 MDP0000784309 MDP0000508761 MDP0000237148 MDP0000183283 MDP0000164201 MDP0000200306 MDP0000166168 MDP0000157997 MDP0000123135 MDP0000865961 MDP0000163006 MDP0000198015 MDP0000419128 MDP0000225313 MDP0000461727 MDP0000215663 MDP0000725386 MDP0000146709 MDP0000188101 MDP0000819132 MDP0000218252 MDP0000830926 MDP0000194040 MDP0000162785 MDP0000700245 MDP0000154475 MDP0000199273 MDP0000493644 MDP0000788170 MDP0000133792 MDP0000202435 MDP0000903481 MDP0000219581 MDP0000319818 MDP0000730019 MDP0000312457 MDP0000240040 MDP0000133367 MDP0000272619 MDP0000159000 MDP0000233658 MDP0000352702 MDP0000120271 MDP0000193657 MDP0000309651 MDP0000130738 MDP0000836785 MDP0000276730 MDP0000265213 MDP0000195260 MDP0000435249 MDP0000675548 MDP0000150739 MDP0000203521 MDP0000220511 MDP0000261375 MDP0000124938 MDP0000269028 MDP0000307685 MDP0000186385 MDP0000649644 MDP0000121094 MDP0000707650 MDP0000661922 MDP0000318625 MDP0000127134 MDP0000605454 MDP0000388769 MDP0000128975 MDP0000705359 MDP0000563899 MDP0000560179 MDP0000271847 MDP0000287328 MDP0000762756 MDP0000730751 MDP0000589981 MDP0000163048 MDP0000458276 MDP0000783325 MDP0000147814 MDP0000565690 MDP0000866270 MDP0000302716 MDP0000169615 MDP0000229238 MDP0000238100 MDP0000538536 MDP0000566567 MDP0000159814 MDP0000318866 MDP0000212080 MDP0000203716 MDP0000209821 MDP0000258886 MDP0000453114 MDP0000534726 MDP0000145422 MDP0000229280 MDP0000256637 MDP0000196150 MDP0000218824 MDP0000725984 MDP0000127691 MDP0000224773 MDP0000283389 MDP0000193196 MDP0000299915 MDP0000288980 MDP0000360447 MDP0000619261 MDP0000203897 MDP0000700383 MDP0000306224 MDP0000265747 MDP0000276954 MDP0000126567 MDP0000531044 MDP0000135084 MDP0000829170 MDP0000301994 MDP0000134397 MDP0000190843 MDP0000292277 MDP0000705053 MDP0000706762 MDP0000060836 MDP0000706020 MDP0000137792 MDP0000210537 MDP0000612469 MDP0000129648 MDP0000228056 MDP0000131822 MDP0000476704 MDP0000387137 MDP0000671040 MDP0000759336 MDP0000683341 MDP0000317975 MDP0000422210 MDP0000440829 MDP0000253905 MDP0000798964 MDP0000943292 MDP0000343219 MDP0000875654 MDP0000246831 MDP0000136642 MDP0000518027 MDP0000301573 MDP0000388075 MDP0000230184 MDP0000372629 MDP0000201865 MDP0000150990 MDP0000651107 MDP0000442914 MDP0000140993 MDP0000188976 MDP0000295258 MDP0000201049 MDP0000155009 MDP0000177048 MDP0000144545 MDP0000139075 MDP0000543510 MDP0000137042 MDP0000177150 MDP0000651353 MDP0000455844 MDP0000530792 MDP0000547788 MDP0000241736 MDP0000309741 MDP0000877539 MDP0000222184 MDP0000499282 MDP0000223122 MDP0000874667 MDP0000533178 MDP0000283823 MDP0000174127 MDP0000708299 MDP0000225538 MDP0000251783 MDP0000138538 MDP0000567268 MDP0000481445 MDP0000165364 MDP0000158665 MDP0000634676 MDP0000854001 MDP0000420223 MDP0000248822 MDP0000483662 MDP0000241358 MDP0000652413 MDP0000919706 MDP0000541805 MDP0000369858 MDP0000168826 MDP0000664096 MDP0000298045 MDP0000123287 MDP0000156208 MDP0000256750 MDP0000888042 MDP0000148399 MDP0000120738 MDP0000200307 MDP0000326735 MDP0000189615 MDP0000235216 MDP0000280265 MDP0000645422 MDP0000737001 MDP0000610961 MDP0000318891 MDP0000456277 MDP0000264307 MDP0000147795 MDP0000299658 MDP0000289822 MDP0000523258 MDP0000932456 MDP0000193721 MDP0000321776 MDP0000128721 MDP0000286141 MDP0000280500 MDP0000405015 MDP0000119600 MDP0000744777 MDP0000155799 MDP0000891556 MDP0000658829 MDP0000539101 MDP0000231962 MDP0000254363 MDP0000668674 MDP0000386815 MDP0000576922 MDP0000787281 MDP0000421111 MDP0000252680 MDP0000313816 MDP0000216786 MDP0000316491 MDP0000226223 MDP0000798878 MDP0000632679 MDP0000281449 MDP0000251781 MDP0000822659 MDP0000296259 MDP0000269284 MDP0000658830 MDP0000200718 MDP0000319225 MDP0000244208 MDP0000564069 MDP0000286359 MDP0000225539 MDP0000736490 MDP0000204606 MDP0000154945 MDP0000659071 MDP0000385168 MDP0000150931 MDP0000699845 MDP0000437886 MDP0000526680 MDP0000305859 MDP0000138115 MDP0000302461 MDP0000157943 MDP0000789304 MDP0000168437 MDP0000641583 MDP0000298084 MDP0000641254 MDP0000207578 MDP0000511689 MDP0000220012 MDP0000294667 MDP0000294360 MDP0000239026 MDP0000124524 MDP0000393950 MDP0000146240 MDP0000261679 MDP0000271244 MDP0000206691 MDP0000555220 MDP0000208028 MDP0000280686 MDP0000303101 MDP0000729348 MDP0000044656 MDP0000227657 MDP0000251943 MDP0000929213 MDP0000295606 MDP0000686021 MDP0000182592 MDP0000167456 MDP0000276889 MDP0000461203 MDP0000309383 MDP0000618065 MDP0000897594 MDP0000939841 MDP0000147913 MDP0000159766 MDP0000161563 MDP0000205389 MDP0000293845 MDP0000244814 MDP0000788934 MDP0000500661 MDP0000632640 MDP0000599427 MDP0000131115 MDP0000251398 MDP0000206714 MDP0000229140 MDP0000665685 MDP0000481314 MDP0000256575 MDP0000156301 MDP0000213381 MDP0000192322 MDP0000316310 MDP0000124490 MDP0000184045 MDP0000262784 MDP0000139605 MDP0000647373 MDP0000153539 MDP0000638870 MDP0000288684 MDP0000830588 MDP0000186513 MDP0000648997 MDP0000544455 MDP0000125303 MDP0000225450 MDP0000908881 MDP0000323296 MDP0000161979 MDP0000204383 MDP0000153063 MDP0000226556 MDP0000046192 MDP0000176602 MDP0000386613 MDP0000233682 MDP0000715994 MDP0000751192 MDP0000281609 MDP0000782882 MDP0000266406 MDP0000527687 MDP0000208514 MDP0000140386 MDP0000160349 MDP0000376738 MDP0000125709 MDP0000368098 MDP0000744887 MDP0000391295 MDP0000554950 MDP0000157213 MDP0000134442 MDP0000233325 MDP0000674666 MDP0000400776 MDP0000121969 MDP0000212336 MDP0000943140 MDP0000389795 MDP0000513751 MDP0000135540 MDP0000153029 MDP0000155204 MDP0000431306 MDP0000119590 MDP0000147581 MDP0000300051 MDP0000559039 MDP0000119550 MDP0000195510 MDP0000807487 MDP0000179719 MDP0000173375 MDP0000801806 MDP0000215224 MDP0000127771 MDP0000122747 MDP0000250954 MDP0000283596 MDP0000276676 MDP0000183682 MDP0000134911 MDP0000119725 MDP0000555329 MDP0000624476 MDP0000612660 MDP0000178791 MDP0000140483 MDP0000193050 MDP0000307964 MDP0000905135 MDP0000538483 MDP0000301417 MDP0000256497 MDP0000300987 MDP0000709073 MDP0000153817 MDP0000223422 MDP0000889159 MDP0000146003 MDP0000213638 MDP0000662880 MDP0000245720 MDP0000460658 MDP0000128935 MDP0000214930 MDP0000185802 MDP0000642505 MDP0000288293 MDP0000134325 MDP0000231713 MDP0000303786 MDP0000813626 MDP0000872533 MDP0000311359 MDP0000933110 MDP0000345066 MDP0000154764 MDP0000720815 MDP0000546507 MDP0000274423 MDP0000296515 MDP0000124868 MDP0000228456 MDP0000475514 MDP0000141882 MDP0000239754 MDP0000221957 MDP0000212307 MDP0000361920 MDP0000186011 MDP0000564065 MDP0000278523 MDP0000299890 MDP0000166777 MDP0000182877 MDP0000213863 MDP0000265806 MDP0000498524 MDP0000284919 MDP0000235168 MDP0000179336 MDP0000515971 MDP0000264118 MDP0000672486 MDP0000515106 MDP0000136032 MDP0000463271 MDP0000755899 MDP0000164977 MDP0000407572 MDP0000383777 MDP0000276278 MDP0000163274 MDP0000119532 MDP0000811127 MDP0000831221 MDP0000836165 MDP0000740656 MDP0000277258 MDP0000267933 MDP0000130459 MDP0000318455 MDP0000944724 MDP0000273588 MDP0000124296 MDP0000683814 MDP0000159472 MDP0000857608 MDP0000180684 MDP0000202315 MDP0000264592 MDP0000611070 MDP0000148780 MDP0000172227 MDP0000197579 MDP0000290288 MDP0000305368 MDP0000183197 MDP0000927456 MDP0000120125 MDP0000165528 MDP0000121166 MDP0000380467 MDP0000622728 MDP0000364750 MDP0000233440 MDP0000225975 MDP0000203784 MDP0000759504 MDP0000162592 MDP0000321445 MDP0000266497 MDP0000231242 MDP0000803520 MDP0000292621 MDP0000596845 MDP0000300507 MDP0000583704 MDP0000282945 MDP0000272880 MDP0000143639 MDP0000131144 MDP0000501172 MDP0000171430 MDP0000266640 MDP0000511650 MDP0000461780 MDP0000164670 MDP0000764585 MDP0000903076 MDP0000874373 MDP0000500732 MDP0000607654 MDP0000570395 MDP0000250951 MDP0000295812 MDP0000216667 MDP0000153978 MDP0000138677 MDP0000507003 MDP0000223224 MDP0000130244 MDP0000163930 MDP0000622590 MDP0000279292 MDP0000535048 MDP0000206473 MDP0000138729 MDP0000799387 MDP0000207215 MDP0000484742 MDP0000923711 MDP0000206973 MDP0000504527 MDP0000689946 MDP0000329703 MDP0000164386 MDP0000825698 MDP0000197297 MDP0000684133 MDP0000629143 MDP0000843632 MDP0000164610 MDP0000171850 MDP0000138057 MDP0000210077 MDP0000282332 MDP0000294379 MDP0000815242 MDP0000368495 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Susceptibility to develop superficial scald is often quite different depending on environmental location of the apples. To discover putative biomarkers, genes were selected from ‘Red Delicious’ apple peel tissue collected from 6 different orchard locations with observed differences in superficial scald injury incidence. Candidate biomarker genes were selected using Pearson correlation analysis (R, Bioconductor) with a p-value cut off of 0.05. Genes that expression changes at harvest correlated with superficial scald injury incidence, with a correlation coefficient of at least 0.6 were selected for further filtering. From a total of 63541 gene models, 1106 that changed at least 4-fold in tissues showing the lowest and highest development of superficial scald and with an average expression value of at least 1 RPKM per sample were selected as potential at harvest predictive biomarkers of superficial scald (Table 4). Because superficial scald can be adequately controlled using appropriate storage conditions, indicating whether storage conditions are actually working or monitoring risk during storage is also a useful tool for this disorder. Increases in superficial scald risk-associated gene expression (FIG. 5) began at 1 month for a few candidates, finally resulting in the selection of 690 candidates for early indication of superficial scald risk (Table 5). Monitoring multiple risk assessment biomarkers can better ensure that changes are based on more biochemical systems associated with risk.

TABLE 4 Accession numbers (Velasco et al., 2010; Retrieved from the Internet: Rosaceae.org) of biomarker genes for superficial scald risk assessment during at- harvest. Higher or lower expression levels can result from cold stress resulting from storage imposition. MDP0000289575 MDP0000213320 MDP0000177522 MDP0000717184 MDP0000631171 MDP0000655623 MDP0000731637 MDP0000313905 MDP0000638953 MDP0000144115 MDP0000320382 MDP0000262190 MDP0000202740 MDP0000180378 MDP0000433093 MDP0000232968 MDP0000283613 MDP0000215302 MDP0000319726 MDP0000176025 MDP0000361876 MDP0000516194 MDP0000125476 MDP0000163474 MDP0000135287 MDP0000588196 MDP0000871409 MDP0000275553 MDP0000156132 MDP0000124687 MDP0000235002 MDP0000507270 MDP0000153860 MDP0000132044 MDP0000267615 MDP0000318040 MDP0000172972 MDP0000304954 MDP0000120272 MDP0000121120 MDP0000820453 MDP0000197521 MDP0000415930 MDP0000138035 MDP0000215722 MDP0000124509 MDP0000156068 MDP0000183189 MDP0000261492 MDP0000261079 MDP0000291259 MDP0000344650 MDP0000868649 MDP0000474856 MDP0000882683 MDP0000120700 MDP0000212886 MDP0000120956 MDP0000313254 MDP0000256881 MDP0000207314 MDP0000319079 MDP0000214384 MDP0000140157 MDP0000193646 MDP0000279740 MDP0000601017 MDP0000653408 MDP0000853568 MDP0000179389 MDP0000522839 MDP0000347935 MDP0000347863 MDP0000279176 MDP0000142739 MDP0000387483 MDP0000169344 MDP0000686132 MDP0000369898 MDP0000904058 MDP0000141949 MDP0000209761 MDP0000243224 MDP0000230950 MDP0000277425 MDP0000737713 MDP0000320910 MDP0000291399 MDP0000312108 MDP0000215578 MDP0000411018 MDP0000182628 MDP0000250672 MDP0000237931 MDP0000349941 MDP0000399965 MDP0000165443 MDP0000943790 MDP0000159869 MDP0000176753 MDP0000776092 MDP0000255275 MDP0000310682 MDP0000946443 MDP0000293407 MDP0000361139 MDP0000242656 MDP0000133066 MDP0000305689 MDP0000309382 MDP0000167951 MDP0000197294 MDP0000378591 MDP0000851390 MDP0000288632 MDP0000401045 MDP0000933747 MDP0000318862 MDP0000169201 MDP0000224489 MDP0000202040 MDP0000230821 MDP0000214259 MDP0000314365 MDP0000334306 MDP0000941890 MDP0000224176 MDP0000194377 MDP0000496646 MDP0000281427 MDP0000661747 MDP0000529463 MDP0000880462 MDP0000165543 MDP0000704323 MDP0000175408 MDP0000574556 MDP0000647735 MDP0000310288 MDP0000233192 MDP0000294123 MDP0000137325 MDP0000072936 MDP0000432499 MDP0000188386 MDP0000164814 MDP0000249932 MDP0000203358 MDP0000898595 MDP0000293236 MDP0000295321 MDP0000215049 MDP0000185616 MDP0000192825 MDP0000443024 MDP0000223864 MDP0000303280 MDP0000224372 MDP0000268711 MDP0000342064 MDP0000259615 MDP0000258335 MDP0000149963 MDP0000799890 MDP0000358823 MDP0000417755 MDP0000282435 MDP0000170551 MDP0000830611 MDP0000274608 MDP0000722481 MDP0000169335 MDP0000135721 MDP0000262784 MDP0000197833 MDP0000239443 MDP0000254595 MDP0000415109 MDP0000796588 MDP0000368412 MDP0000256575 MDP0000161846 MDP0000854541 MDP0000116595 MDP0000520902 MDP0000293072 MDP0000712524 MDP0000949494 MDP0000287512 MDP0000351376 MDP0000722373 MDP0000320289 MDP0000242946 MDP0000876051 MDP0000793261 MDP0000842724 MDP0000568871 MDP0000164181 MDP0000140641 MDP0000458965 MDP0000306215 MDP0000310582 MDP0000634462 MDP0000156263 MDP0000119092 MDP0000119066 MDP0000678128 MDP0000417786 MDP0000585315 MDP0000149647 MDP0000314471 MDP0000590105 MDP0000272737 MDP0000851476 MDP0000569492 MDP0000817494 MDP0000187917 MDP0000138715 MDP0000164478 MDP0000320542 MDP0000224750 MDP0000149770 MDP0000304038 MDP0000123699 MDP0000192433 MDP0000134572 MDP0000214747 MDP0000866655 MDP0000600199 MDP0000216728 MDP0000205641 MDP0000265636 MDP0000152120 MDP0000131201 MDP0000871736 MDP0000245305 MDP0000771577 MDP0000840031 MDP0000298189 MDP0000284916 MDP0000495763 MDP0000850449 MDP0000233740 MDP0000346630 MDP0000268910 MDP0000293203 MDP0000265524 MDP0000227876 MDP0000128173 MDP0000191848 MDP0000223383 MDP0000217467 MDP0000273980 MDP0000257891 MDP0000583574 MDP0000269711 MDP0000215300 MDP0000720785 MDP0000201205 MDP0000201897 MDP0000237134 MDP0000174081 MDP0000436155 MDP0000264403 MDP0000648408 MDP0000766771 MDP0000133156 MDP0000790904 MDP0000452677 MDP0000937996 MDP0000139612 MDP0000312965 MDP0000246502 MDP0000176265 MDP0000443824 MDP0000184034 MDP0000291152 MDP0000240321 MDP0000596604 MDP0000191304 MDP0000356392 MDP0000299146 MDP0000889675 MDP0000651174 MDP0000501048 MDP0000477241 MDP0000266472 MDP0000144890 MDP0000745895 MDP0000321182 MDP0000264506 MDP0000124819 MDP0000180370 MDP0000210030 MDP0000226644 MDP0000447081 MDP0000211593 MDP0000286692 MDP0000932002 MDP0000157227 MDP0000861936 MDP0000914171 MDP0000807972 MDP0000579628 MDP0000192468 MDP0000325473 MDP0000210081 MDP0000174273 MDP0000451827 MDP0000130537 MDP0000207048 MDP0000258192 MDP0000791829 MDP0000227393 MDP0000276468 MDP0000805790 MDP0000759984 MDP0000175030 MDP0000166278 MDP0000766213 MDP0000126178 MDP0000482042 MDP0000538720 MDP0000156188 MDP0000563240 MDP0000237733 MDP0000295195 MDP0000568497 MDP0000150458 MDP0000140342 MDP0000298849 MDP0000296989 MDP0000638263 MDP0000208667 MDP0000305746 MDP0000501238 MDP0000394035 MDP0000278577 MDP0000673494 MDP0000127757 MDP0000322300 MDP0000250487 MDP0000261330 MDP0000276431 MDP0000206274 MDP0000174818 MDP0000125452 MDP0000263183 MDP0000505386 MDP0000121577 MDP0000434333 MDP0000806127 MDP0000228711 MDP0000266942 MDP0000904515 MDP0000932838 MDP0000821066 MDP0000291748 MDP0000250226 MDP0000876439 MDP0000262699 MDP0000263222 MDP0000556214 MDP0000402540 MDP0000229126 MDP0000167758 MDP0000782670 MDP0000750294 MDP0000206886 MDP0000801340 MDP0000411240 MDP0000792264 MDP0000849696 MDP0000138764 MDP0000804605 MDP0000135594 MDP0000189850 MDP0000588065 MDP0000199827 MDP0000643415 MDP0000188113 MDP0000270104 MDP0000314057 MDP0000412607 MDP0000816245 MDP0000327226 MDP0000211739 MDP0000855663 MDP0000232789 MDP0000924775 MDP0000163618 MDP0000127799 MDP0000338628 MDP0000214084 MDP0000254385 MDP0000006982 MDP0000779795 MDP0000383060 MDP0000901457 MDP0000306444 MDP0000621375 MDP0000172898 MDP0000343887 MDP0000320547 MDP0000199681 MDP0000861752 MDP0000432746 MDP0000164657 MDP0000131980 MDP0000830926 MDP0000529726 MDP0000248687 MDP0000621864 MDP0000352616 MDP0000318338 MDP0000420968 MDP0000210893 MDP0000276596 MDP0000935322 MDP0000247548 MDP0000579882 MDP0000718454 MDP0000696952 MDP0000318732 MDP0000133612 MDP0000213245 MDP0000231999 MDP0000193877 MDP0000320982 MDP0000170030 MDP0000166574 MDP0000175827 MDP0000302009 MDP0000165528 MDP0000499190 MDP0000479140 MDP0000259584 MDP0000256645 MDP0000271923 MDP0000121203 MDP0000201853 MDP0000302115 MDP0000280819 MDP0000758661 MDP0000264160 MDP0000288573 MDP0000254705 MDP0000309625 MDP0000171695 MDP0000315158 MDP0000230967 MDP0000248776 MDP0000183815 MDP0000168762 MDP0000304620 MDP0000316067 MDP0000299992 MDP0000289300 MDP0000568581 MDP0000163339 MDP0000129331 MDP0000195409 MDP0000146799 MDP0000463166 MDP0000307409 MDP0000600288 MDP0000315873 MDP0000351321 MDP0000342813 MDP0000732602 MDP0000209731 MDP0000767407 MDP0000891077 MDP0000708550 MDP0000122849 MDP0000321375 MDP0000280862 MDP0000161703 MDP0000316100 MDP0000307728 MDP0000450714 MDP0000282305 MDP0000187678 MDP0000193257 MDP0000926233 MDP0000809914 MDP0000861495 MDP0000265233 MDP0000280440 MDP0000245127 MDP0000661407 MDP0000868659 MDP0000485799 MDP0000278269 MDP0000452507 MDP0000290819 MDP0000190684 MDP0000243565 MDP0000689939 MDP0000242913 MDP0000289226 MDP0000232523 MDP0000940179 MDP0000310093 MDP0000738623 MDP0000352240 MDP0000358690 MDP0000169888 MDP0000683819 MDP0000282143 MDP0000238240 MDP0000159536 MDP0000911973 MDP0000529390 MDP0000634433 MDP0000255282 MDP0000318068 MDP0000759227 MDP0000688928 MDP0000234595 MDP0000267323 MDP0000515017 MDP0000131979 MDP0000211685 MDP0000231680 MDP0000887896 MDP0000596868 MDP0000242402 MDP0000454710 MDP0000123286 MDP0000276120 MDP0000847090 MDP0000169727 MDP0000610308 MDP0000273345 MDP0000831154 MDP0000345462 MDP0000259977 MDP0000540243 MDP0000364139 MDP0000224010 MDP0000295258 MDP0000824430 MDP0000158436 MDP0000151832 MDP0000194889 MDP0000142446 MDP0000510503 MDP0000602047 MDP0000197200 MDP0000532930 MDP0000120224 MDP0000132789 MDP0000464475 MDP0000466196 MDP0000152359 MDP0000176991 MDP0000312734 MDP0000299953 MDP0000196399 MDP0000294799 MDP0000494715 MDP0000478736 MDP0000775934 MDP0000531030 MDP0000637150 MDP0000794184 MDP0000178024 MDP0000225194 MDP0000928608 MDP0000304816 MDP0000187155 MDP0000697206 MDP0000174949 MDP0000236483 MDP0000139736 MDP0000278458 MDP0000577829 MDP0000173106 MDP0000198539 MDP0000784309 MDP0000402780 MDP0000540171 MDP0000823142 MDP0000123004 MDP0000903427 MDP0000612660 MDP0000200447 MDP0000145365 MDP0000950298 MDP0000234462 MDP0000508389 MDP0000451269 MDP0000271925 MDP0000136856 MDP0000805095 MDP0000750449 MDP0000292266 MDP0000541905 MDP0000214450 MDP0000865961 MDP0000578050 MDP0000166697 MDP0000316241 MDP0000235958 MDP0000653439 MDP0000320380 MDP0000227323 MDP0000167199 MDP0000542055 MDP0000403071 MDP0000183238 MDP0000612129 MDP0000672138 MDP0000278072 MDP0000262098 MDP0000197840 MDP0000168904 MDP0000613481 MDP0000123802 MDP0000127633 MDP0000263736 MDP0000164264 MDP0000215405 MDP0000298623 MDP0000929646 MDP0000464636 MDP0000600895 MDP0000588230 MDP0000920171 MDP0000733791 MDP0000207303 MDP0000218929 MDP0000647176 MDP0000172065 MDP0000184960 MDP0000426020 MDP0000189522 MDP0000712699 MDP0000130760 MDP0000219582 MDP0000313757 MDP0000155446 MDP0000323027 MDP0000833352 MDP0000209790 MDP0000145872 MDP0000251018 MDP0000319853 MDP0000319815 MDP0000939744 MDP0000517479 MDP0000557365 MDP0000120560 MDP0000174326 MDP0000169375 MDP0000203221 MDP0000906067 MDP0000177321 MDP0000393709 MDP0000225340 MDP0000358977 MDP0000261839 MDP0000218018 MDP0000120973 MDP0000562741 MDP0000277463 MDP0000262145 MDP0000141380 MDP0000742771 MDP0000144837 MDP0000917798 MDP0000260268 MDP0000360208 MDP0000172936 MDP0000248694 MDP0000925194 MDP0000196174 MDP0000308048 MDP0000286699 MDP0000351118 MDP0000512591 MDP0000912917 MDP0000300507 MDP0000296668 MDP0000119797 MDP0000157187 MDP0000405592 MDP0000221844 MDP0000132702 MDP0000434534 MDP0000873874 MDP0000128090 MDP0000223775 MDP0000306672 MDP0000309059 MDP0000141881 MDP0000231391 MDP0000252087 MDP0000796508 MDP0000309287 MDP0000170290 MDP0000366609 MDP0000276798 MDP0000917824 MDP0000859800 MDP0000294062 MDP0000510604 MDP0000922476 MDP0000841558 MDP0000337136 MDP0000184882 MDP0000310619 MDP0000436861 MDP0000501298 MDP0000218824 MDP0000284264 MDP0000546892 MDP0000633192 MDP0000157816 MDP0000670817 MDP0000939182 MDP0000490694 MDP0000163852 MDP0000234651 MDP0000542046 MDP0000306556 MDP0000045645 MDP0000441013 MDP0000809715 MDP0000142582 MDP0000218940 MDP0000144791 MDP0000231030 MDP0000783759 MDP0000389984 MDP0000487437 MDP0000170129 MDP0000264606 MDP0000203250 MDP0000157932 MDP0000375384 MDP0000603853 MDP0000349718 MDP0000177244 MDP0000675292 MDP0000233708 MDP0000240300 MDP0000309183 MDP0000336871 MDP0000122022 MDP0000348258 MDP0000289855 MDP0000606526 MDP0000384845 MDP0000197022 MDP0000226432 MDP0000886460 MDP0000165352 MDP0000616804 MDP0000224773 MDP0000266087 MDP0000184553 MDP0000200164 MDP0000570178 MDP0000130564 MDP0000785092 MDP0000589639 MDP0000166780 MDP0000166969 MDP0000952085 MDP0000312246 MDP0000854686 MDP0000270526 MDP0000305932 MDP0000802663 MDP0000362019 MDP0000137855 MDP0000182956 MDP0000293785 MDP0000340511 MDP0000209327 MDP0000269911 MDP0000208611 MDP0000281967 MDP0000216558 MDP0000871412 MDP0000374252 MDP0000355705 MDP0000296476 MDP0000157854 MDP0000127691 MDP0000449389 MDP0000865739 MDP0000175733 MDP0000063793 MDP0000202911 MDP0000130143 MDP0000307308 MDP0000314253 MDP0000422549 MDP0000944746 MDP0000234477 MDP0000203391 MDP0000947876 MDP0000786463 MDP0000421226 MDP0000853832 MDP0000128423 MDP0000232578 MDP0000299496 MDP0000271058 MDP0000336256 MDP0000143330 MDP0000162194 MDP0000933677 MDP0000477856 MDP0000138691 MDP0000803090 MDP0000305029 MDP0000704254 MDP0000369382 MDP0000311632 MDP0000206057 MDP0000309995 MDP0000233888 MDP0000141097 MDP0000198493 MDP0000915501 MDP0000315476 MDP0000129681 MDP0000525928 MDP0000037251 MDP0000196563 MDP0000172885 MDP0000127973 MDP0000245162 MDP0000890434 MDP0000358829 MDP0000341472 MDP0000247681 MDP0000303332 MDP0000672731 MDP0000195162 MDP0000198166 MDP0000358828 MDP0000232846 MDP0000136455 MDP0000547461 MDP0000921067 MDP0000283994 MDP0000198165 MDP0000358827 MDP0000212688 MDP0000836170 MDP0000157404 MDP0000905321 MDP0000269859 MDP0000539433 MDP0000218227 MDP0000294789 MDP0000253428 MDP0000131100 MDP0000892526 MDP0000245245 MDP0000309329 MDP0000845428 MDP0000178782 MDP0000357423 MDP0000144441 MDP0000350201 MDP0000123987 MDP0000649828 MDP0000171066 MDP0000175282 MDP0000476508 MDP0000282829 MDP0000244238 MDP0000130016 MDP0000353843 MDP0000521965 MDP0000473817 MDP0000155077 MDP0000827385 MDP0000128581 MDP0000263540 MDP0000135731 MDP0000703817 MDP0000293103 MDP0000347520 MDP0000911025 MDP0000759303 MDP0000308446 MDP0000307013 MDP0000182253 MDP0000347881 MDP0000284819 MDP0000151150 MDP0000129926 MDP0000536665 MDP0000179767 MDP0000147900 MDP0000145027 MDP0000153313 MDP0000138241 MDP0000338689 MDP0000320119 MDP0000927456 MDP0000299015 MDP0000192235 MDP0000168725 MDP0000217322 MDP0000214291 MDP0000270602 MDP0000366710 MDP0000248312 MDP0000180024 MDP0000225215 MDP0000273029 MDP0000156417 MDP0000309477 MDP0000169670 MDP0000125171 MDP0000204452 MDP0000601282 MDP0000122897 MDP0000284030 MDP0000905253 MDP0000466284 MDP0000319160 MDP0000715969 MDP0000712194 MDP0000430717 MDP0000901915 MDP0000319434 MDP0000284060 MDP0000253891 MDP0000345094 MDP0000263628 MDP0000288155 MDP0000848695 MDP0000184238 MDP0000321380 MDP0000607421 MDP0000311110 MDP0000463867 MDP0000280105 MDP0000237754 MDP0000320056 MDP0000262020 MDP0000338804 MDP0000666817 MDP0000323375 MDP0000940296 MDP0000179659 MDP0000412665 MDP0000181372 MDP0000312397 MDP0000290889 MDP0000158864 MDP0000532093 MDP0000242263 MDP0000220347 MDP0000750839 MDP0000157962 MDP0000811844 MDP0000304763 MDP0000163728 MDP0000349199 MDP0000314259 MDP0000759782 MDP0000127498 MDP0000265213 MDP0000202739 MDP0000464599 MDP0000317931 MDP0000531930 MDP0000281707 MDP0000252478 MDP0000201389 MDP0000202282 MDP0000186558 MDP0000317621 MDP0000280705 MDP0000163771 MDP0000274156 MDP0000368785 MDP0000174216 MDP0000335354 MDP0000427753 MDP0000119925 MDP0000265387 MDP0000294667 MDP0000191197 MDP0000619638 MDP0000237586 MDP0000288670 MDP0000319790 MDP0000887754 MDP0000318193 MDP0000307516 MDP0000503774 MDP0000469664 MDP0000138538 MDP0000884147 MDP0000815791 MDP0000226601 MDP0000202801 MDP0000650358 MDP0000126222 MDP0000308563 MDP0000390645 MDP0000695737 MDP0000394412 MDP0000210087 MDP0000540543 MDP0000249284 MDP0000132849 MDP0000815097 MDP0000128876 MDP0000512808 MDP0000229726 MDP0000770369 MDP0000192796 MDP0000203347 MDP0000672208 MDP0000501447 MDP0000206198 MDP0000582861 MDP0000282275 MDP0000455726 MDP0000228424 MDP0000618272 MDP0000250153 MDP0000309575 MDP0000392250 MDP0000249539 MDP0000275365 MDP0000258078 MDP0000349401 MDP0000214532 MDP0000813922 MDP0000859897 MDP0000257001 MDP0000351483 MDP0000543082 MDP0000597996 MDP0000161414 MDP0000204437 MDP0000123015 MDP0000210684 MDP0000176300 MDP0000352413 MDP0000741407 MDP0000210970 MDP0000171067 MDP0000681724 MDP0000473932 MDP0000814937 MDP0000300945 MDP0000166861 MDP0000443502 MDP0000430870 MDP0000844941 MDP0000265810 MDP0000153500 MDP0000321445 MDP0000167564 MDP0000437672 MDP0000225547 MDP0000137990 MDP0000215281 MDP0000836081 MDP0000658885 MDP0000287293 MDP0000317819 MDP0000307857 MDP0000203726 MDP0000590966 MDP0000706809 MDP0000243937 MDP0000205256 MDP0000679688 MDP0000346532 MDP0000740877 MDP0000877316 MDP0000408508 MDP0000361511 MDP0000790026 MDP0000415189 MDP0000244886 MDP0000410116 MDP0000288633 MDP0000206985 MDP0000283898 MDP0000225170 MDP0000285682 MDP0000287729 MDP0000118810 MDP0000581272 MDP0000292276 MDP0000308201 MDP0000818140 MDP0000497915 MDP0000830519 MDP0000178513

TABLE 5 Accession numbers (Velasco et al., 2010; Retrieved from the Internet: Rosaceae.org) of biomarker genes for superficial scald risk assessment during cold storage. Biomarker expression levels increase as risk of developing superficial scald increases. MDP0000595271 MDP0000231076 MDP0000199110 MDP0000153000 MDP0000568825 MDP0000593593 MDP0000289804 MDP0000868045 MDP0000416548 MDP0000532986 MDP0000258908 MDP0000197984 MDP0000194046 MDP0000148178 MDP0000188613 MDP0000899821 MDP0000719836 MDP0000299801 MDP0000178304 MDP0000404409 MDP0000210595 MDP0000266097 MDP0000755113 MDP0000261679 MDP0000307124 MDP0000380032 MDP0000170792 MDP0000267350 MDP0000243843 MDP0000242622 MDP0000507003 MDP0000908881 MDP0000298232 MDP0000726332 MDP0000254208 MDP0000209662 MDP0000250936 MDP0000737001 MDP0000487738 MDP0000144205 MDP0000131645 MDP0000326412 MDP0000288533 MDP0000508761 MDP0000166704 MDP0000487946 MDP0000864442 MDP0000195510 MDP0000150480 MDP0000511650 MDP0000825508 MDP0000142251 MDP0000151829 MDP0000867150 MDP0000281064 MDP0000137225 MDP0000279839 MDP0000231666 MDP0000192074 MDP0000119634 MDP0000599845 MDP0000257010 MDP0000296432 MDP0000162146 MDP0000267909 MDP0000251656 MDP0000419926 MDP0000803862 MDP0000886270 MDP0000150841 MDP0000745371 MDP0000342540 MDP0000825373 MDP0000194902 MDP0000216945 MDP0000711379 MDP0000313224 MDP0000217451 MDP0000327191 MDP0000509613 MDP0000218404 MDP0000235548 MDP0000278477 MDP0000829416 MDP0000228499 MDP0000471879 MDP0000771404 MDP0000656802 MDP0000213526 MDP0000913661 MDP0000123888 MDP0000759646 MDP0000127244 MDP0000307340 MDP0000242083 MDP0000199076 MDP0000666771 MDP0000633461 MDP0000323702 MDP0000792088 MDP0000564334 MDP0000187493 MDP0000452083 MDP0000261468 MDP0000183814 MDP0000182342 MDP0000582214 MDP0000198406 MDP0000425918 MDP0000172542 MDP0000211356 MDP0000570881 MDP0000219062 MDP0000668140 MDP0000390049 MDP0000431280 MDP0000285612 MDP0000921402 MDP0000226995 MDP0000216638 MDP0000271312 MDP0000313778 MDP0000265094 MDP0000420611 MDP0000437033 MDP0000251966 MDP0000913598 MDP0000161016 MDP0000251516 MDP0000572564 MDP0000300811 MDP0000200811 MDP0000716496 MDP0000906115 MDP0000739955 MDP0000186193 MDP0000881966 MDP0000233842 MDP0000253215 MDP0000256573 MDP0000523579 MDP0000715270 MDP0000200799 MDP0000291687 MDP0000459010 MDP0000127739 MDP0000219838 MDP0000782085 MDP0000319910 MDP0000252171 MDP0000210560 MDP0000663105 MDP0000628093 MDP0000173635 MDP0000140483 MDP0000137919 MDP0000205035 MDP0000148289 MDP0000120413 MDP0000812018 MDP0000163017 MDP0000450991 MDP0000188101 MDP0000135974 MDP0000285672 MDP0000205216 MDP0000168714 MDP0000323136 MDP0000287302 MDP0000786311 MDP0000284571 MDP0000175733 MDP0000223003 MDP0000149907 MDP0000576205 MDP0000298230 MDP0000420223 MDP0000434420 MDP0000192671 MDP0000158470 MDP0000638442 MDP0000258979 MDP0000292031 MDP0000697764 MDP0000566567 MDP0000319522 MDP0000760179 MDP0000515106 MDP0000311720 MDP0000295562 MDP0000151884 MDP0000545379 MDP0000278157 MDP0000756254 MDP0000325497 MDP0000222790 MDP0000899351 MDP0000298062 MDP0000211549 MDP0000191837 MDP0000679369 MDP0000707567 MDP0000297105 MDP0000191661 MDP0000858175 MDP0000202051 MDP0000193898 MDP0000369596 MDP0000767257 MDP0000506825 MDP0000759591 MDP0000839921 MDP0000699004 MDP0000120546 MDP0000532630 MDP0000568474 MDP0000159103 MDP0000586674 MDP0000152670 MDP0000246484 MDP0000294847 MDP0000608985 MDP0000255415 MDP0000160390 MDP0000175691 MDP0000569069 MDP0000223057 MDP0000156554 MDP0000696814 MDP0000212925 MDP0000313485 MDP0000230387 MDP0000804928 MDP0000162215 MDP0000570395 MDP0000374719 MDP0000490696 MDP0000279462 MDP0000264639 MDP0000125618 MDP0000186011 MDP0000201196 MDP0000263161 MDP0000578396 MDP0000839209 MDP0000649783 MDP0000713068 MDP0000139458 MDP0000554480 MDP0000263768 MDP0000698220 MDP0000148399 MDP0000548790 MDP0000142250 MDP0000629887 MDP0000209821 MDP0000836661 MDP0000286238 MDP0000305699 MDP0000645274 MDP0000264441 MDP0000875406 MDP0000735747 MDP0000237989 MDP0000147814 MDP0000864660 MDP0000157209 MDP0000129648 MDP0000265644 MDP0000862169 MDP0000207066 MDP0000294725 MDP0000884047 MDP0000278858 MDP0000249405 MDP0000305630 MDP0000674589 MDP0000316162 MDP0000137211 MDP0000275507 MDP0000307943 MDP0000148746 MDP0000253802 MDP0000279440 MDP0000173593 MDP0000163095 MDP0000798346 MDP0000126517 MDP0000129626 MDP0000232042 MDP0000322404 MDP0000407300 MDP0000336146 MDP0000142278 MDP0000418277 MDP0000288378 MDP0000576110 MDP0000680345 MDP0000010587 MDP0000181915 MDP0000126274 MDP0000298577 MDP0000431556 MDP0000122993 MDP0000829170 MDP0000899508 MDP0000718806 MDP0000222189 MDP0000297821 MDP0000127134 MDP0000217423 MDP0000314043 MDP0000227115 MDP0000885737 MDP0000478232 MDP0000197160 MDP0000805606 MDP0000276506 MDP0000951901 MDP0000417791 MDP0000310641 MDP0000582841 MDP0000274090 MDP0000300045 MDP0000160434 MDP0000431120 MDP0000184528 MDP0000589981 MDP0000673917 MDP0000140386 MDP0000126570 MDP0000310866 MDP0000770211 MDP0000133801 MDP0000153532 MDP0000718381 MDP0000659260 MDP0000192078 MDP0000137826 MDP0000206991 MDP0000543167 MDP0000176441 MDP0000302538 MDP0000150279 MDP0000575170 MDP0000350845 MDP0000287264 MDP0000205588 MDP0000167199 MDP0000119590 MDP0000123893 MDP0000585849 MDP0000305384 MDP0000248928 MDP0000281804 MDP0000119754 MDP0000257423 MDP0000123894 MDP0000153831 MDP0000202780 MDP0000242255 MDP0000136653 MDP0000307516 MDP0000118790 MDP0000309383 MDP0000161424 MDP0000316694 MDP0000163217 MDP0000390252 MDP0000884108 MDP0000174365 MDP0000154589 MDP0000248504 MDP0000863049 MDP0000180877 MDP0000164511 MDP0000181206 MDP0000547418 MDP0000233761 MDP0000394116 MDP0000140755 MDP0000304795 MDP0000119010 MDP0000563553 MDP0000194040 MDP0000171771 MDP0000454229 MDP0000415910 MDP0000337931 MDP0000866259 MDP0000210996 MDP0000251295 MDP0000245234 MDP0000124626 MDP0000947607 MDP0000323033 MDP0000484484 MDP0000880784 MDP0000922391 MDP0000740656 MDP0000247130 MDP0000260159 MDP0000215049 MDP0000641583 MDP0000461727 MDP0000180642 MDP0000455515 MDP0000320477 MDP0000231668 MDP0000221346 MDP0000453190 MDP0000160547 MDP0000270644 MDP0000271781 MDP0000633953 MDP0000293001 MDP0000128089 MDP0000119512 MDP0000310001 MDP0000272396 MDP0000479863 MDP0000251955 MDP0000273029 MDP0000229280 MDP0000755938 MDP0000841490 MDP0000297304 MDP0000488789 MDP0000163690 MDP0000230627 MDP0000241967 MDP0000222539 MDP0000309587 MDP0000805778 MDP0000196402 MDP0000175240 MDP0000253952 MDP0000240253 MDP0000229843 MDP0000129379 MDP0000240930 MDP0000398765 MDP0000131182 MDP0000264920 MDP0000214697 MDP0000333250 MDP0000246999 MDP0000263706 MDP0000193050 MDP0000173687 MDP0000255777 MDP0000162375 MDP0000850015 MDP0000610787 MDP0000192492 MDP0000279713 MDP0000512061 MDP0000269554 MDP0000188229 MDP0000255915 MDP0000265042 MDP0000719386 MDP0000236634 MDP0000617396 MDP0000695252 MDP0000221319 MDP0000143011 MDP0000129167 MDP0000308284 MDP0000223496 MDP0000794656 MDP0000301420 MDP0000212713 MDP0000127028 MDP0000176769 MDP0000162481 MDP0000663049 MDP0000843477 MDP0000169686 MDP0000179238 MDP0000909653 MDP0000124428 MDP0000841118 MDP0000663236 MDP0000313248 MDP0000180684 MDP0000928674 MDP0000692392 MDP0000317974 MDP0000185324 MDP0000178522 MDP0000286385 MDP0000185304 MDP0000584567 MDP0000256726 MDP0000202352 MDP0000302858 MDP0000275424 MDP0000171719 MDP0000299702 MDP0000210562 MDP0000210067 MDP0000767331 MDP0000268763 MDP0000167207 MDP0000709303 MDP0000282415 MDP0000127563 MDP0000156421 MDP0000205389 MDP0000004754 MDP0000241046 MDP0000134135 MDP0000468038 MDP0000291544 MDP0000304817 MDP0000166723 MDP0000160413 MDP0000295604 MDP0000680183 MDP0000174149 MDP0000863151 MDP0000285243 MDP0000121656 MDP0000162600 MDP0000131308 MDP0000747526 MDP0000261432 MDP0000208546 MDP0000121669 MDP0000146135 MDP0000164159 MDP0000431281 MDP0000243676 MDP0000216602 MDP0000543088 MDP0000279550 MDP0000165503 MDP0000342721 MDP0000532631 MDP0000731356 MDP0000639167 MDP0000660892 MDP0000732635 MDP0000146390 MDP0000321664 MDP0000328533 MDP0000012541 MDP0000687873 MDP0000882895 MDP0000160662 MDP0000133428 MDP0000192847 MDP0000865079 MDP0000138296 MDP0000289339 MDP0000219521 MDP0000226405 MDP0000375867 MDP0000159140 MDP0000242052 MDP0000269900 MDP0000802413 MDP0000276576 MDP0000252597 MDP0000720497 MDP0000144324 MDP0000314081 MDP0000199234 MDP0000723934 MDP0000672731 MDP0000253189 MDP0000155746 MDP0000196869 MDP0000133671 MDP0000162721 MDP0000298547 MDP0000231093 MDP0000157089 MDP0000933945 MDP0000668914 MDP0000585014 MDP0000126098 MDP0000900186 MDP0000297797 MDP0000201903 MDP0000270083 MDP0000225047 MDP0000917197 MDP0000123910 MDP0000736035 MDP0000257119 MDP0000228838 MDP0000176923 MDP0000618087 MDP0000126873 MDP0000157408 MDP0000363760 MDP0000157879 MDP0000318500 MDP0000304378 MDP0000184157 MDP0000292176 MDP0000119600 MDP0000129506 MDP0000421759 MDP0000167088 MDP0000831840 MDP0000189570 MDP0000230316 MDP0000204626 MDP0000873295 MDP0000320322 MDP0000311389 MDP0000599427 MDP0000722934 MDP0000218952 MDP0000601893 MDP0000009080 MDP0000279360 MDP0000776146 MDP0000144640 MDP0000279785 MDP0000192816 MDP0000196627 MDP0000806350 MDP0000321558 MDP0000163006 MDP0000182333 MDP0000241928 MDP0000300351 MDP0000679687 MDP0000648218 MDP0000131377 MDP0000775613 MDP0000164161 MDP0000440918 MDP0000812560 MDP0000184480 MDP0000175141 MDP0000531811 MDP0000228304 MDP0000190430 MDP0000274901 MDP0000012534 MDP0000195070 MDP0000184238 MDP0000609114 MDP0000891965 MDP0000175839 MDP0000298769 MDP0000268320 MDP0000757070 MDP0000135041 MDP0000205725 MDP0000131763 MDP0000138284 MDP0000215026 MDP0000276264 MDP0000832469 MDP0000262811 MDP0000202900 MDP0000242266 MDP0000318293 MDP0000328419 MDP0000711374 MDP0000788707 MDP0000163669 MDP0000134278 MDP0000131004 MDP0000130822 MDP0000897807 MDP0000227886 MDP0000122413 MDP0000269136 MDP0000882268 MDP0000130200 MDP0000734649 MDP0000199661 MDP0000318900 MDP0000677352 MDP0000155809 MDP0000296600 MDP0000241462 MDP0000689033 MDP0000720974 MDP0000238976 MDP0000213383 MDP0000306888 MDP0000125850

Firm flesh browning disorder can be controlled using appropriate storage conditions. We were able to use these methods to discover putative biomarkers, since different treatments following harvest, induce contrasting disorder development. Controlled atmosphere combined with lower temperature (0.5° C.) storage causes increased injury over that observed at warmer storage temperature (3.0° C.). In addition, treatment of apples with 1-MCP (SmartFresh) following harvest also enhances firm flesh browning injury. Candidate biomarker genes were selected by pairwise comparison using the differential gene expression program edgeR (R, Bioconductor) with a p-value cut off of 0.05. Genes were selected from cortex/flesh tissue collected from New York state grown ‘Empire’ apples, provoked by storage treatments that affect firm flesh browning injury incidence. From a total of 63541 gene models, 2581 had an expression change of at least 4-fold, and had an average expression RPKM value of at least 1 per sample, and were selected as potential predictive or diagnostic biomarkers for firm flesh browning (Table 6).

TABLE 6 Accession numbers (Velasco et al., 2010; Retrieved from the Internet: Rosaceae.org) of biomarker genes for firm flesh browning risk assessment during cold storage. Higher or lower expression levels can result from cold stress resulting from storage imposition. MDP0000034165 MDP0000312902 MDP0000133552 MDP0000218946 MDP0000310711 MDP0000716315 MDP0000234244 MDP0000060869 MDP0000313281 MDP0000134105 MDP0000219155 MDP0000311039 MDP0000720656 MDP0000234570 MDP0000074782 MDP0000313454 MDP0000134162 MDP0000220129 MDP0000311884 MDP0000720974 MDP0000234689 MDP0000085889 MDP0000314088 MDP0000134341 MDP0000220168 MDP0000312044 MDP0000722139 MDP0000235112 MDP0000085893 MDP0000314777 MDP0000134389 MDP0000220633 MDP0000312397 MDP0000722229 MDP0000235661 MDP0000086296 MDP0000317237 MDP0000134603 MDP0000221075 MDP0000312434 MDP0000727570 MDP0000235822 MDP0000088659 MDP0000317475 MDP0000135374 MDP0000221400 MDP0000313382 MDP0000729533 MDP0000237637 MDP0000092478 MDP0000317502 MDP0000135529 MDP0000221435 MDP0000313664 MDP0000731537 MDP0000238100 MDP0000119926 MDP0000318069 MDP0000135540 MDP0000221742 MDP0000313949 MDP0000731637 MDP0000239011 MDP0000120188 MDP0000318184 MDP0000135831 MDP0000221867 MDP0000314286 MDP0000732666 MDP0000239029 MDP0000120975 MDP0000318347 MDP0000135974 MDP0000222184 MDP0000314435 MDP0000732713 MDP0000240138 MDP0000121374 MDP0000318613 MDP0000136892 MDP0000222403 MDP0000314478 MDP0000736385 MDP0000241650 MDP0000121657 MDP0000319048 MDP0000137225 MDP0000222430 MDP0000314505 MDP0000736490 MDP0000241840 MDP0000121897 MDP0000320017 MDP0000137705 MDP0000223153 MDP0000315227 MDP0000742957 MDP0000242052 MDP0000122086 MDP0000320496 MDP0000137792 MDP0000223422 MDP0000315498 MDP0000744636 MDP0000242083 MDP0000122235 MDP0000320534 MDP0000138035 MDP0000223749 MDP0000315959 MDP0000745371 MDP0000243721 MDP0000122297 MDP0000320763 MDP0000138500 MDP0000223871 MDP0000315998 MDP0000746166 MDP0000244067 MDP0000122540 MDP0000321910 MDP0000138538 MDP0000223878 MDP0000316002 MDP0000746652 MDP0000244851 MDP0000124008 MDP0000322034 MDP0000138727 MDP0000224040 MDP0000316095 MDP0000747845 MDP0000245067 MDP0000124585 MDP0000322229 MDP0000138729 MDP0000224773 MDP0000316207 MDP0000748035 MDP0000245173 MDP0000125807 MDP0000322543 MDP0000138789 MDP0000225212 MDP0000316310 MDP0000749755 MDP0000245245 MDP0000126274 MDP0000322563 MDP0000139058 MDP0000225313 MDP0000316379 MDP0000750374 MDP0000245702 MDP0000126479 MDP0000323033 MDP0000139525 MDP0000225502 MDP0000316397 MDP0000753547 MDP0000245760 MDP0000126481 MDP0000324254 MDP0000139721 MDP0000225524 MDP0000316490 MDP0000754524 MDP0000245817 MDP0000126601 MDP0000324681 MDP0000140046 MDP0000225569 MDP0000316497 MDP0000755474 MDP0000246198 MDP0000127732 MDP0000324831 MDP0000140259 MDP0000226247 MDP0000317227 MDP0000755567 MDP0000247211 MDP0000128678 MDP0000325376 MDP0000141463 MDP0000226279 MDP0000317247 MDP0000756536 MDP0000248168 MDP0000128887 MDP0000325652 MDP0000141686 MDP0000227119 MDP0000317975 MDP0000757613 MDP0000249105 MDP0000129164 MDP0000326734 MDP0000142080 MDP0000227640 MDP0000318256 MDP0000758050 MDP0000249183 MDP0000129874 MDP0000330372 MDP0000142814 MDP0000227657 MDP0000318702 MDP0000761113 MDP0000249561 MDP0000130244 MDP0000331536 MDP0000143458 MDP0000228070 MDP0000318866 MDP0000762600 MDP0000250254 MDP0000130449 MDP0000337873 MDP0000143462 MDP0000228247 MDP0000318901 MDP0000766223 MDP0000250737 MDP0000130822 MDP0000343219 MDP0000143463 MDP0000228302 MDP0000319037 MDP0000766240 MDP0000250951 MDP0000131763 MDP0000345457 MDP0000143641 MDP0000228370 MDP0000319081 MDP0000769764 MDP0000251418 MDP0000132130 MDP0000347092 MDP0000143660 MDP0000228456 MDP0000319220 MDP0000771574 MDP0000251943 MDP0000132621 MDP0000349267 MDP0000144125 MDP0000228682 MDP0000319299 MDP0000771647 MDP0000253102 MDP0000132919 MDP0000355705 MDP0000144481 MDP0000228839 MDP0000319525 MDP0000772938 MDP0000253735 MDP0000133105 MDP0000362571 MDP0000145375 MDP0000228855 MDP0000320124 MDP0000773753 MDP0000254009 MDP0000133306 MDP0000363287 MDP0000145885 MDP0000229280 MDP0000320167 MDP0000774713 MDP0000255255 MDP0000133507 MDP0000364685 MDP0000146158 MDP0000229796 MDP0000320213 MDP0000776040 MDP0000256494 MDP0000133792 MDP0000365521 MDP0000146168 MDP0000230223 MDP0000320322 MDP0000776042 MDP0000257010 MDP0000133933 MDP0000365970 MDP0000146360 MDP0000230627 MDP0000320555 MDP0000777336 MDP0000257349 MDP0000134325 MDP0000367733 MDP0000146703 MDP0000230863 MDP0000321078 MDP0000780674 MDP0000257866 MDP0000136194 MDP0000367954 MDP0000147795 MDP0000231468 MDP0000321156 MDP0000781875 MDP0000258775 MDP0000136671 MDP0000376209 MDP0000147872 MDP0000231923 MDP0000321410 MDP0000782085 MDP0000259832 MDP0000136708 MDP0000376261 MDP0000147902 MDP0000231962 MDP0000321690 MDP0000785886 MDP0000259869 MDP0000137053 MDP0000379414 MDP0000147913 MDP0000231999 MDP0000321770 MDP0000786650 MDP0000260553 MDP0000137211 MDP0000385086 MDP0000148067 MDP0000232225 MDP0000322053 MDP0000787216 MDP0000261517 MDP0000137305 MDP0000388415 MDP0000148081 MDP0000232344 MDP0000322220 MDP0000788345 MDP0000261585 MDP0000137383 MDP0000390049 MDP0000148121 MDP0000232477 MDP0000323076 MDP0000789304 MDP0000262078 MDP0000137468 MDP0000391295 MDP0000148283 MDP0000232855 MDP0000323136 MDP0000789873 MDP0000262449 MDP0000138581 MDP0000392201 MDP0000148399 MDP0000232990 MDP0000323702 MDP0000792088 MDP0000262682 MDP0000138927 MDP0000392485 MDP0000148493 MDP0000233154 MDP0000324894 MDP0000793733 MDP0000263016 MDP0000139052 MDP0000393617 MDP0000148685 MDP0000233370 MDP0000325984 MDP0000794439 MDP0000263035 MDP0000139075 MDP0000394116 MDP0000148780 MDP0000233440 MDP0000326334 MDP0000795437 MDP0000263180 MDP0000139458 MDP0000398063 MDP0000148815 MDP0000233508 MDP0000326412 MDP0000800300 MDP0000263415 MDP0000140078 MDP0000399807 MDP0000148967 MDP0000233546 MDP0000328563 MDP0000803096 MDP0000264639 MDP0000140483 MDP0000405003 MDP0000149839 MDP0000233923 MDP0000330325 MDP0000803411 MDP0000264686 MDP0000140678 MDP0000406592 MDP0000149857 MDP0000234782 MDP0000334047 MDP0000803920 MDP0000266249 MDP0000140803 MDP0000409061 MDP0000149950 MDP0000235028 MDP0000334395 MDP0000804605 MDP0000266692 MDP0000142389 MDP0000409732 MDP0000150049 MDP0000235118 MDP0000334726 MDP0000804895 MDP0000268731 MDP0000143220 MDP0000411091 MDP0000150374 MDP0000235322 MDP0000337611 MDP0000804928 MDP0000269052 MDP0000144836 MDP0000412849 MDP0000150382 MDP0000236866 MDP0000338804 MDP0000808124 MDP0000269215 MDP0000145104 MDP0000413399 MDP0000150637 MDP0000237173 MDP0000342145 MDP0000811831 MDP0000270052 MDP0000145267 MDP0000414977 MDP0000150710 MDP0000237180 MDP0000343244 MDP0000812208 MDP0000270057 MDP0000145559 MDP0000418277 MDP0000150868 MDP0000237619 MDP0000343311 MDP0000813838 MDP0000270440 MDP0000145813 MDP0000420611 MDP0000151330 MDP0000238096 MDP0000343606 MDP0000817733 MDP0000270449 MDP0000145827 MDP0000423597 MDP0000152377 MDP0000238773 MDP0000344348 MDP0000818877 MDP0000270534 MDP0000146449 MDP0000427970 MDP0000152433 MDP0000238780 MDP0000347336 MDP0000819360 MDP0000271403 MDP0000146709 MDP0000436345 MDP0000152612 MDP0000238942 MDP0000348468 MDP0000821066 MDP0000271527 MDP0000146914 MDP0000436890 MDP0000152670 MDP0000238996 MDP0000349972 MDP0000821241 MDP0000271850 MDP0000147150 MDP0000440922 MDP0000153237 MDP0000239442 MDP0000350579 MDP0000822659 MDP0000272179 MDP0000147635 MDP0000445218 MDP0000153265 MDP0000239687 MDP0000356203 MDP0000822752 MDP0000272619 MDP0000147638 MDP0000447081 MDP0000153381 MDP0000239820 MDP0000356350 MDP0000823488 MDP0000273276 MDP0000148169 MDP0000450991 MDP0000153759 MDP0000240094 MDP0000360018 MDP0000825508 MDP0000273370 MDP0000148746 MDP0000451434 MDP0000153798 MDP0000240378 MDP0000360295 MDP0000825698 MDP0000274120 MDP0000150068 MDP0000452083 MDP0000154393 MDP0000240458 MDP0000361351 MDP0000826832 MDP0000275058 MDP0000150990 MDP0000453114 MDP0000154734 MDP0000240463 MDP0000361550 MDP0000827219 MDP0000275110 MDP0000151825 MDP0000453295 MDP0000155073 MDP0000241545 MDP0000361899 MDP0000827463 MDP0000275386 MDP0000152278 MDP0000455174 MDP0000155206 MDP0000241587 MDP0000361922 MDP0000827881 MDP0000275850 MDP0000152821 MDP0000457243 MDP0000155869 MDP0000241662 MDP0000362033 MDP0000830926 MDP0000276013 MDP0000155194 MDP0000459304 MDP0000156213 MDP0000241694 MDP0000362294 MDP0000831656 MDP0000277046 MDP0000156208 MDP0000460051 MDP0000156301 MDP0000241913 MDP0000362615 MDP0000832104 MDP0000277802 MDP0000156830 MDP0000460658 MDP0000156379 MDP0000242154 MDP0000363386 MDP0000832599 MDP0000279125 MDP0000157932 MDP0000461150 MDP0000156554 MDP0000242476 MDP0000364779 MDP0000834632 MDP0000279459 MDP0000158046 MDP0000462139 MDP0000156921 MDP0000242498 MDP0000365732 MDP0000835304 MDP0000280264 MDP0000158047 MDP0000463271 MDP0000157113 MDP0000242884 MDP0000366710 MDP0000836051 MDP0000280711 MDP0000158129 MDP0000465035 MDP0000157124 MDP0000242979 MDP0000368719 MDP0000837613 MDP0000280712 MDP0000158544 MDP0000471879 MDP0000157238 MDP0000243120 MDP0000371737 MDP0000839696 MDP0000281041 MDP0000158753 MDP0000472176 MDP0000157356 MDP0000243138 MDP0000372629 MDP0000839736 MDP0000281698 MDP0000159000 MDP0000473750 MDP0000157412 MDP0000243826 MDP0000375867 MDP0000840536 MDP0000282696 MDP0000159240 MDP0000481448 MDP0000157748 MDP0000244084 MDP0000376347 MDP0000841170 MDP0000282889 MDP0000160072 MDP0000482268 MDP0000158045 MDP0000244211 MDP0000376469 MDP0000843913 MDP0000284060 MDP0000160662 MDP0000484559 MDP0000158089 MDP0000244504 MDP0000378200 MDP0000844682 MDP0000285300 MDP0000161415 MDP0000484742 MDP0000158114 MDP0000244591 MDP0000379060 MDP0000848372 MDP0000286125 MDP0000161424 MDP0000488361 MDP0000158194 MDP0000244700 MDP0000379961 MDP0000848905 MDP0000286764 MDP0000162064 MDP0000498540 MDP0000158387 MDP0000244928 MDP0000382467 MDP0000854242 MDP0000287857 MDP0000162679 MDP0000501048 MDP0000158437 MDP0000245016 MDP0000383616 MDP0000854432 MDP0000288468 MDP0000163006 MDP0000503246 MDP0000158799 MDP0000245123 MDP0000383777 MDP0000854581 MDP0000289320 MDP0000163728 MDP0000506346 MDP0000159472 MDP0000245234 MDP0000385168 MDP0000857061 MDP0000290315 MDP0000164386 MDP0000506359 MDP0000159766 MDP0000245436 MDP0000386613 MDP0000858039 MDP0000290615 MDP0000166059 MDP0000507003 MDP0000159814 MDP0000245720 MDP0000388769 MDP0000860226 MDP0000291422 MDP0000166590 MDP0000507853 MDP0000159873 MDP0000245931 MDP0000389735 MDP0000861708 MDP0000292157 MDP0000166704 MDP0000513880 MDP0000160029 MDP0000246046 MDP0000391210 MDP0000864575 MDP0000292767 MDP0000166723 MDP0000517479 MDP0000160094 MDP0000247502 MDP0000394728 MDP0000864748 MDP0000292984 MDP0000168498 MDP0000520923 MDP0000160435 MDP0000247659 MDP0000394944 MDP0000865032 MDP0000293347 MDP0000168964 MDP0000521662 MDP0000160447 MDP0000248299 MDP0000397579 MDP0000865079 MDP0000293642 MDP0000169611 MDP0000521934 MDP0000160481 MDP0000248312 MDP0000398010 MDP0000866082 MDP0000294359 MDP0000170286 MDP0000530457 MDP0000160547 MDP0000248575 MDP0000398765 MDP0000869097 MDP0000294423 MDP0000171430 MDP0000532986 MDP0000160880 MDP0000248636 MDP0000407273 MDP0000870778 MDP0000295375 MDP0000171707 MDP0000533178 MDP0000161125 MDP0000248822 MDP0000407755 MDP0000872787 MDP0000295392 MDP0000171771 MDP0000533638 MDP0000161160 MDP0000248928 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MDP0000299310 MDP0000657456 MDP0000203822 MDP0000795754 MDP0000286574 MDP0000121522 MDP0000206973 MDP0000299311 MDP0000657517 MDP0000205654 MDP0000800945 MDP0000287234 MDP0000122066 MDP0000207149 MDP0000299402 MDP0000657852 MDP0000207919 MDP0000801117 MDP0000287302 MDP0000122127 MDP0000207215 MDP0000299872 MDP0000658305 MDP0000208326 MDP0000803116 MDP0000287581 MDP0000122458 MDP0000207220 MDP0000299915 MDP0000659818 MDP0000208497 MDP0000803674 MDP0000287647 MDP0000122792 MDP0000207500 MDP0000299980 MDP0000659907 MDP0000208804 MDP0000807889 MDP0000287729 MDP0000123287 MDP0000207601 MDP0000300045 MDP0000662428 MDP0000208907 MDP0000810488 MDP0000288293 MDP0000123432 MDP0000207745 MDP0000300046 MDP0000662880 MDP0000209660 MDP0000810883 MDP0000288684 MDP0000123467 MDP0000208088 MDP0000300161 MDP0000663105 MDP0000210336 MDP0000811127 MDP0000289412 MDP0000123659 MDP0000208090 MDP0000300351 MDP0000666539 MDP0000210641 MDP0000811918 MDP0000290182 MDP0000123680 MDP0000208137 MDP0000301119 MDP0000666771 MDP0000210846 MDP0000813278 MDP0000290620 MDP0000124013 MDP0000208204 MDP0000301515 MDP0000670935 MDP0000211494 MDP0000813922 MDP0000290970 MDP0000124053 MDP0000208899 MDP0000301677 MDP0000670959 MDP0000211660 MDP0000814874 MDP0000292132 MDP0000124233 MDP0000209261 MDP0000301994 MDP0000672731 MDP0000211661 MDP0000815097 MDP0000292492 MDP0000124375 MDP0000209368 MDP0000302021 MDP0000673070 MDP0000211968 MDP0000819881 MDP0000293045 MDP0000124832 MDP0000209464 MDP0000302198 MDP0000674589 MDP0000212002 MDP0000824147 MDP0000293103 MDP0000124866 MDP0000209633 MDP0000302538 MDP0000674666 MDP0000212007 MDP0000834656 MDP0000293143 MDP0000124881 MDP0000209662 MDP0000302716 MDP0000674719 MDP0000214625 MDP0000835140 MDP0000293236 MDP0000125082 MDP0000209689 MDP0000302838 MDP0000675548 MDP0000216225 MDP0000841708 MDP0000293842 MDP0000125709 MDP0000209713 MDP0000302905 MDP0000676693 MDP0000216376 MDP0000848515 MDP0000293974 MDP0000126455 MDP0000209897 MDP0000303101 MDP0000679280 MDP0000216945 MDP0000853531 MDP0000294379 MDP0000126718 MDP0000210022 MDP0000303198 MDP0000680042 MDP0000217142 MDP0000858452 MDP0000295039 MDP0000126850 MDP0000210238 MDP0000303384 MDP0000681106 MDP0000217310 MDP0000859733 MDP0000295223 MDP0000127834 MDP0000210254 MDP0000303430 MDP0000682471 MDP0000217362 MDP0000863049 MDP0000295540 MDP0000127930 MDP0000210260 MDP0000303496 MDP0000684216 MDP0000217499 MDP0000863404 MDP0000295543 MDP0000128265 MDP0000211252 MDP0000303872 MDP0000685420 MDP0000217803 MDP0000864442 MDP0000295562 MDP0000128267 MDP0000211643 MDP0000304254 MDP0000685425 MDP0000217850 MDP0000866840 MDP0000295794 MDP0000128423 MDP0000211758 MDP0000304881 MDP0000685724 MDP0000218078 MDP0000868044 MDP0000298232 MDP0000128463 MDP0000211874 MDP0000305029 MDP0000686466 MDP0000219430 MDP0000868659 MDP0000298527 MDP0000128531 MDP0000211955 MDP0000305338 MDP0000688188 MDP0000219802 MDP0000873893 MDP0000299181 MDP0000128560 MDP0000212045 MDP0000305695 MDP0000688643 MDP0000219838 MDP0000874667 MDP0000300808 MDP0000128786 MDP0000212077 MDP0000305886 MDP0000689162 MDP0000220167 MDP0000883367 MDP0000301666 MDP0000128790 MDP0000212327 MDP0000305934 MDP0000689889 MDP0000220328 MDP0000891353 MDP0000302024 MDP0000128937 MDP0000212372 MDP0000306224 MDP0000691413 MDP0000221160 MDP0000892526 MDP0000302440 MDP0000129051 MDP0000212760 MDP0000306907 MDP0000692523 MDP0000222089 MDP0000895380 MDP0000302671 MDP0000129445 MDP0000212975 MDP0000306990 MDP0000694318 MDP0000222724 MDP0000899413 MDP0000303449 MDP0000129648 MDP0000213508 MDP0000307150 MDP0000694562 MDP0000223057 MDP0000901379 MDP0000304620 MDP0000129681 MDP0000213863 MDP0000307340 MDP0000696497 MDP0000223568 MDP0000903481 MDP0000304719 MDP0000130630 MDP0000213948 MDP0000307432 MDP0000696624 MDP0000223905 MDP0000905321 MDP0000305094 MDP0000130716 MDP0000214579 MDP0000307685 MDP0000697378 MDP0000224209 MDP0000905924 MDP0000306738 MDP0000130769 MDP0000214797 MDP0000307853 MDP0000697676 MDP0000224389 MDP0000906703 MDP0000306888 MDP0000131142 MDP0000215239 MDP0000308181 MDP0000698024 MDP0000224417 MDP0000910032 MDP0000307717 MDP0000131267 MDP0000215270 MDP0000308285 MDP0000698038 MDP0000224930 MDP0000911731 MDP0000308205 MDP0000131368 MDP0000215276 MDP0000308395 MDP0000700189 MDP0000225340 MDP0000921067 MDP0000309160 MDP0000131377 MDP0000215777 MDP0000308491 MDP0000702868 MDP0000226276 MDP0000921871 MDP0000309314 MDP0000131386 MDP0000216638 MDP0000308907 MDP0000703059 MDP0000227692 MDP0000928898 MDP0000309732 MDP0000131731 MDP0000216907 MDP0000308938 MDP0000705359 MDP0000227742 MDP0000937996 MDP0000309741 MDP0000132207 MDP0000216952 MDP0000309169 MDP0000706828 MDP0000228529 MDP0000942516 MDP0000310093 MDP0000132209 MDP0000217406 MDP0000309382 MDP0000708299 MDP0000228670 MDP0000942873 MDP0000310940 MDP0000132381 MDP0000217451 MDP0000309530 MDP0000708692 MDP0000229338 MDP0000944409 MDP0000311556 MDP0000132436 MDP0000217745 MDP0000309676 MDP0000709073 MDP0000231369 MDP0000947607 MDP0000312449 MDP0000132623 MDP0000218252 MDP0000309805 MDP0000709523 MDP0000231477 MDP0000949486 MDP0000312701 MDP0000132726 MDP0000218451 MDP0000310374 MDP0000711379 MDP0000232264 MDP0000950422 MDP0000312765 MDP0000132855 MDP0000218748 MDP0000310430 MDP0000711832 MDP0000232789 MDP0000312878 MDP0000132952 MDP0000218810 MDP0000310641 MDP0000711891 MDP0000233356

The methods of the present invention may be practiced using any set of genes selected from the candidate genes disclosed herein, as long as the expression profiles of the genes within a given set discriminate between browning disorder progression outcomes.

The identification of such sets of genes may be performed by any suitable selection method, including, but not limited to, cluster analysis, supported vector machines, neural networks or other algorithms. A set of genes identified by such selection methods is generally capable of predicting the classification of an unknown sample based on the expression levels of genes used for the discrimination. “Leave one out” cross-validation may be used to test the performance of various models and to help identify weights (genes) that are uninformative (e.g., redundant) or detrimental to the predictive ability of the gene model.

As will be appreciated by those of ordinary skill in the art, sets of genes whose expression profiles correlate with browning disorder progression, and which can discriminate between browning disorder progression outcomes, may be used to identify/study unknown Rosaceous tissue samples. Accordingly, the present invention provides methods for characterizing Rosaceous tissue in Rosaceous fruit crops suspected of having the risk of developing multiple browning disorders.

The diagnostic/prognostic methods of the present invention generally involve the determination of expression levels of a set of genes in a Rosaceous tissue sample. Determination of gene expression levels in the practice of the inventive methods may be performed by any suitable method. For example, determination of gene expression levels may be performed by detecting the expression of mRNA expressed from the genes of interest and/or by detecting the expression of a polypeptide encoded by the genes. Here, we have exemplified the determination of gene expression by the RNAseq method.

Our method can be readily adapted to currently available, existing platforms for measuring biomarkers. The expected end users of our products include apple producers, storage operators, shippers, retailers, agricultural laboratories, and agrichemical service providers. The same or similar equipment is already regularly employed world-wide by agricultural/agrichemical service providers to measure biomarkers and for other chemical analysis (plant nutrient levels, plant growth regulators, chemical residue analysis). Other existing easy to use, field-based platforms, many of which are already employed in apple production and apple packing plants can be adapted for biomarker measurement in diverse settings including hand-held electronic devices, dip-stick tests, and bench-top, hand-held, and packing-line mounted non-destructive sorting sensors. Examples of agricultural applications using gene expression biomarkers include an easy-to-use, mail-in platform that measures biomarkers that determine optimum apple and pear fruit harvest date.

As used herein, the term “gene” refers to a polynucleotide that encodes a discrete macromolecular product, be it RNA or a protein, and may include regulatory sequences preceding (5′ non-coding sequences) and following (3′ non-encoding sequences) the coding sequence. As more than one polynucleotide may encode a discrete product, the term also includes alleles and polymorphisms of a gene that encode the same product, or a functionally associated (including gain, loss, or modulation of function) analog thereof.

The term “gene expression” refers to the process by which RNA and proteins are made from the instructions encoded in genes. Gene expression include transcription and/or translation of nucleic acid material.

The terms “gene expression pattern” and “gene expression profile” are used herein interchangeably. They refer to the expression of an individual gene or of a set of genes. A gene expression pattern may include information regarding the presence of target transcripts in a sample, and the relative or absolute abundance levels of target transcripts.

The term “differentially expressed gene” refers to a gene whose level of expression is different in a subject (or a population of subjects) afflicted with a disorder relative to its level of expression in a healthy or control subject (or a population of healthy or control subjects). The term also includes a gene whose level of expression is different at different stages of, as described here, browning disorder. As will be appreciated by those skilled in the art, a gene may be differentially expressed at the nucleic acid level and/or protein level, may undergo alternative splicing resulting in a different polypeptide product, or the protein could be a target of posttranslational modification and degradation. Differential expression includes quantitative, as well as qualitative, differences in the temporal or cellular expression pattern in a gene or its expression products. As described in greater details below, a differentially expressed gene, alone or in combination with other differentially expressed genes, is useful in a variety of different applications in diagnostic, therapeutic, prognosis and related areas. The expression patterns of the differentially expressed genes disclosed herein can be described as a fingerprint or a signature of browning disorder progression. They can be used as a point of reference to compare and characterize unknown samples and samples for which further information is sought.

The term “RNA transcript” refers to the product resulting from transcription of a DNA sequence. When the RNA transcript is the original, unmodified product of a RNA polymerase catalyzed transcription, it is referred to as the primary transcript. An RNA transcript that has been processed (e.g., spliced, etc.) will differ in sequence from the primary transcript. A processed RNA transcript that is translated into protein is often called a messenger RNA (mRNA). The term “messenger RNA or mRNA” refers to a form of RNA that serves as a template to direct protein biosynthesis. Typically, but not always, the amount of any particular type of mRNA (i.e., having the same sequence, and originating from the same gene) reflects the extent to which a gene has been expressed.

The term “complementary DNA or cDNA” refers to a DNA molecule that is complementary to mRNA. cDNA can be made by DNA polymerase (e.g., reverse transcriptase) or by directed chemical synthesis.

The term “complementary” refers to nucleic acid sequences that base-pair according to the standard Watson-Crick complementary rules, or that are capable of hybridizing to a particular nucleic acid segment under relatively stringent conditions. Nucleic acid polymers are optionally complementary across only portions of their entire sequences.

The term “hybridizing” refers to the binding of two single stranded nucleic acids via complementary base pairing. The terms “specific hybridization” and “specific binding” are used herein interchangeably. They refer to a process in which a nucleic acid molecule preferentially binds, duplexes, or hybridizes to a particular nucleic acid sequence under stringent conditions (e.g., in the presence of competitor nucleic acids with a lower degree of complementarity to the hybridizing strand). In certain embodiments of the present invention, these terms more specifically refer to a process in which a nucleic acid fragment (or segment) from a test sample preferentially binds to a particular genetic probe and to a lesser extent or not at all, to other genetic probes, for example, when these genetic probes are immobilized on an array.

The term “gene expression array” refers to an array comprising a plurality of genetic probes immobilized on a substrate surface that can be used for quantitation of mRNA expression levels. The term “genetic probe”, as used herein, refers to a nucleic acid molecule of known sequence, which has its origin in a defined region of the genome and can be a short DNA sequence (i.e., an oligonucleotide), a PCR product, or mRNA isolate. Genetic probes are gene-specific DNA sequences to which nucleic acid fragments from a test sample are hybridized. Genetic probes specifically bind to nucleic acid of complementary or substantially complementary sequence through one or more types of chemical bonds, usually through hydrogen bond formation. Here, we have used RNAseq profiling.

As used herein, the term “a reagent that specifically detects expression levels” refers to one or more reagents used to detect the expression of one or more genes (e.g., genes selected from the groups of 82 (Table 1), 494 (Table 2) and 2330 (Table 3) genes provided herein. Examples of suitable reagents include, but are not limited to, nucleic acid probes capable of specifically hybridizing to the gene of interest, PCR primers capable of specifically amplifying the gene of interest, and antibodies capable of specifically binding to proteins expressed by the gene of interest. The term “amplify” is used in the broad sense to mean creating an amplification product. “Amplification”, as used herein, generally refers to the process of producing multiple copies of a desired sequence, particularly those of a sample. A “copy” does not necessarily mean perfect sequence complementarity or identity to the template sequence.

The term “browning disorder profile” refers to a presentation of expression levels of a set of genes in Rosaceous fruit tissue (e.g., tissue at time of harvest, tissue after cold storage imposition). In preferred embodiments, profiles are generated from pooled samples comprising tissue samples from a plurality of fruits at the same stage.

As used herein, the term “modulation of browning disorder progression” refers to the ability of a treatment or management strategy to increase or decrease the likelihood that browning disorder will occur. Generally, useful strategies are those that decrease the likelihood of multiple browning disorder progression.

EXAMPLES

Having now generally described this invention, the same will be better understood by reference to certain specific examples, which are included herein only to further illustrate the invention and are not intended to limit the scope of the invention as defined by the claims.

Example 1 Biomarker Discovery: Early Term Physiological Disorder Risk Assessment

For initial candidate selection, ‘Honeycrisp’ apples were obtained from 15 orchards distributed among the Lake Chelan/Brewster, Columbia Basin, and Yakima Valley growing regions in Washington State and the Hood River growing region of Oregon between Sep. 2 and Oct. 21, 2011. No pre-harvest treatments were applied, with the exception of Retain™, an ethylene biosynthesis inhibitor, (Valent BioScience Corporation, Libertyville, Ill., USA) to Orchard M. To determine the effects of harvest-timing on postharvest soft scald and soggy breakdown, fruit from one site was harvested at three different times, to represent an early, mid-, and late harvest (Orchard A). On the day of harvest, quality was assessed. Fruit were stored at 1° C. with no atmospheric modification and after 12 weeks, the final incidence of soft scald and soggy breakdown was assessed. For the selection process, the intent was to account for orchard to orchard variation of soft scald/soggy breakdown incidence given the impacts of pre-harvest environment and cultural controls as well as harvest maturity.

Example 2 Biomarker Discovery: Late Term Physiological Disorder Risk Assessment

‘Granny Smith’ apples were harvested 140 days after full bloom (approximately 1 month prior to commercial harvest) at a research orchard near Orondo, Wash. After transport to the laboratory, analysis of fruit maturity and application of DPA and 1-MCP were performed. Apples were stored in air at 1° C. for up to 6 months. Six replications of 3 fruit per treatment were removed from storage at 1, 2, and 4 weeks and 2, 3, 4, and 6 months. Upon removal from storage, scald development was rated on a 0-4 scale and peel sampled and stored from each treatment for subsequent analysis. In a parallel experiment, additional apples were treated with 2000 mg L⁻¹ DPA after 1-4 weeks, and 2 months after storage inception to determine the length of the transitional period during which scald can be suppressed. Scald development on these fruit was evaluated after 2, 3, 4, and 6 months storage.

Example 3 Gene Expression Evaluation: RNA Extraction and RNAseq Profiling

Harvested apple tissue was immediately snap frozen in liquid nitrogen and stored at −80° C. until required. Tissue was ground into a fine powder in liquid N₂ and total RNA was extracted from 500 mg of tissue in 0.8 mL of extraction buffer (4M guanidine isothiocyanate, 25 mM EDTA, 2.5% polyvinylpyrollidone (MW 40,000), 2% sarkosyl, 1% β-mercaptoethanol, 0.2M sodium acetate, pH 5.0) at 70° C. for 10 min. Following incubation, chloroform (0.8 mL) was added, tubes vortexed and then spun in a benchtop centrifuge at top speed for 15 minutes. The resulting upper aqueous phase was collected, and a half volume of ethanol added and mixed by inversion. Total RNA was then purified through columns as per the manufacturer's instructions (Qiagen, RNAeasy), and eluted in nuclease free water. The resulting total RNA was checked for integrity via gel electrophoresis then quantified and diluted appropriately.

Libraries for RNAseq were made using 2 μg of total RNA following the method of Zhong et al. (2011. Cold Spring Harbor Protocols 8:940-949) and Gapper et al. (2013. AoB Plants 5:plt021) with slight modification. In short, mRNA was isolated from total RNA, mRNA was fragmented and used as a template to produce cDNA by reverse transcription using Superscript III (Invitrogen). Following first strand cDNA synthesis, the second strand was synthesized with a dNTP mix incorporating dUTP instead of dTTP by DNA polymerase (Enzymatics). The ends of the double stranded cDNAs were then repaired (Enzymatics), dA tailed by the Klenow enzyme (Enzymatics) and universal adapters ligated to the double stranded cDNA fragments. Following ligation of adapters, the second strand was digested by Uracil DNA Glycosylase (UDG), to enable strand specific enrichment of the library. The UDG digested cDNA was then used as a template to enrich the libraries by PCR with Illumina Tru-seq primers using the high fidelity enzyme Phusion (New England Biolabs) with the following conditions: 95° C. 2 min; 15 cycles of 98° C. 11 s, 65° C. 30 s, 72° C. 25 s; 72° C. 2 min; 4° C. soak.

Libraries were quantified, and 20 ng of each pooled for sequencing. Up to 48 libraries were multiplexed per sequencing reaction using an Illumina HiSeq 2500 next generation sequencer at the Weill Medicine School Sequencing Facility (Cornell University, New York City, N.Y.). Three biological replicates were sequenced for each sample. Short (40 bp) single-end, strand-specific RNASeq reads were filtered by aligning to adapter, ribosomal RNA and tRNA sequences using Bowtie (allowing two mismatches). The resulting high quality reads were aligned to the apple genome (Velasco et al. 2010. Nat. Genet. 42(10):833-839) using Tophat (allowing 1 segment mismatch) (Benjamini and Hochberg. 1995. J. Royal Stat. Soc. Series B (Method.) 57(1):289-300). Following alignments, raw counts were normalized to reads per kilobase of exon model per million mapped reads (RPKM).

Example 4 In Vitro Transcription and Chilling Stress

Soft scald and soggy breakdown. Only genes with expression levels over 2 RPKM for any replication were considered for candidate selection. Only genes whose expression was variable across the whole data set were considered for subsequent correlation analysis. Peel and cortex expression levels (RPKM) at harvest and following 2 weeks cold storage were compared with soft scald and soggy breakdown incidence (coded as 0=no incidence, 1=0-10%; 2=10-25%; 3=over 25%) taken at 12 weeks using Pearson's correlation analysis. Gene expression with a correlation coefficient above R²=10.5001 or R²=10.7001 for at-harvest and 2 week comparisons (respectively) were considered candidate biomarkers for risk assessment monitoring.

Soft scald and soggy breakdown began to develop beginning at 4 weeks in some high risk orchards eventually developing to maximum incidence and severity by 12 weeks, as expected from earlier work using this cultivar (FIG. 2). The RNAseq protocol provided one of many sensitive, accurate, and precise platform for candidate expression evaluation in both apple peel and flesh. Of the 63,541 genes screened in this experiment, 82 candidates were found useful for assessing risk at-harvest (Table 1) and 494 for 2 week risk assessment of peel and/or cortex tissue (Table 2). Biomarker gene expression primarily increased although some decreased with increasing risk. Accordingly, a summary of overall gene expression levels indicated that more models were linked with eventual injury at 2 weeks, or following cold storage imposition, rather than at-harvest (FIG. 4) indicating that the cold stress that provokes the injury followed by candidate expression evaluation will provide the most accurate risk assessment. Given the dramatic change in gene expression provoked by cold storage imposition, measuring candidate expression levels both before and at one or more points following cold storage may yield even more accurate information by documenting upward or downward trends. Similarly, monitoring multiple risk assessment biomarkers can better ensure that changes are based on more biochemical systems associated with risk.

Superficial scald. Only genes with peel expression levels over 2 RPKM for any time point were considered for modeling and candidate selection yielding 35,644 gene models for subsequent screening. Gene models alongside superficial scald incidence were clustered across all 3 treatments over the 6 month storage period using k-means correlation clustering algorithm (Matlab) yielding 86 clusters. Gene models with increasing expression in control fruit, but not antioxidant or 1-MCP-treated fruit 2 months or more prior to superficial scald incidence, were considered candidates. K-means correlations clustering was used to group genes similarly expressed over the entire experiment in all treatments. Clusters comprised of superficial scald risk storage monitoring biomarker candidates were those that correlated R²=0.700 with conjugated trienol (CTOL) levels or injury incidence.

The first symptoms of superficial scald began to develop on control fruit between 2 and 3 months and continued to increase in severity until 6 months as is typical for this cultivar when stored in air without any control steps taken (FIG. 3B). Both crop protectants either eliminated or markedly reduced symptom development while providing two physiologically different means of control to select the most accurate risk assessment candidates from. Because superficial scald can be adequately controlled using appropriate storage conditions, indicating whether storage conditions are actually working or monitoring risk during storage is the most useful tool for this disorder. Increases in superficial scald risk-associated gene expression began at 1 month for a few candidates (FIG. 5) 690 candidates for early indication of scald risk (Table 3). Monitoring multiple risk assessment biomarkers can better ensure that changes are based on more biochemical systems associated with risk.

Example 5 Risk Assessment

Multiple candidates are part of previously unidentified metabolic responses to stress and, monitoring these candidates appear to be effective for assessing risk across disorders and cultivars following, or during, cold stress events. Changes in expression levels before and following cold storage imposition as well as fold difference between high risk and low risk orchards for developing soft scald/soggy breakdown (early-term disorders) are included as examples of broadly effective risk assessment biomarkers (Table 7). For soft scald/soggy breakdown risk assessment, the fold difference from the highest incidence orchard to lowest incidence orchard is indicated as well as the % change in expression following cold storage imposition. For superficial scald, a late-term disorder, the time from first detection of risk using a specific biomarker until symptom appearance and the % change in expression during that period are indicated. Expression of many of these genes change dramatically indicating repeated measurement around the point of cold storage imposition may be used to improve confidence. Monitoring the same genes during storage of cultivars at risk for developing superficial scald or other late-term apple and pear physiological disorders leads to expression changes that ultimately culminate in symptom development 1 month or more later. Increased expression of up to 98% transpired up to 6 weeks prior to disorder development. Biomarker genes are from multiple stress-related biochemical processes not related to stress in fruit prior to this discovery. Monitoring biomarkers from multiple processes can be used for a more confident evaluation. For instance, candidates putatively involved in phenolic metabolism and indole acetic acid (IAA) metabolism could be monitored in tandem.

TABLE 7 Apple protein Accession Numbers (Velasco et al., 2010; Retrieved from the Internet: Rosaceae.org) of biomarker genes for early and late term apple peel and flesh disorders. Late-term disorders Early-term disorders Time before Gene accession Fold % symptoms % number difference¹ change² (weeks)³ change⁴ MDP0000591260 7.8*, nd  75.0 8 52.8 MDP0000272351 6.4, 11  89.0 8 41.9 MDP0000145813 11.5, 13.8 43.9 8 82.0 MDP0000551974 16.9, 56.6 86.4 8 46.2 MDP0000424447 21.9, 54.4 85.6 8 36.6 MDP0000215525 20.2, 29.0 46.3 8 83.9 MDP0000715898 12.7, 15.5 81.9 6 60.1 MDP0000306121 18.2, 30.0 46.6 8 84.3 MDP0000290801 19.1, 41.0 56.2 8 83.4 MDP0000307237 17.9, 27.4 40.4 6 81.1 MDP0000769764 20.1, 224  59.6 8 77.7 MDP0000545122 13.6, 27.0 88.2 6 44.7 MDP0000733506 22.0, 31.3 82.4 8 48.0 MDP0000617956 47.6, nd  82.3 8 46.9 MDP0000755567 11.6, 25.2 96.6 6 17.9 MDP0000334047 11.0, 8.09 64.4 6 36.7 MDP0000688645 34.2, 16.4 98.1 8 43.9 MDP0000576682 4.8, nd  −10.6 6 66.2 MDP0000191939 4.0, 3.1 −6.3 8 46.7 MDP0000195213 15.3, 19.4 63.3 8 41.8 MDP0000211643 19.5, 8.2  82.2 8 20.3 MDP0000292164  9.0, 16.4 64.7 6 50.2 MDP0000130244 51.0, 20.5 96.8 6 75.2 MDP0000190809  4.9, 10.0 62.8 6 −22.1 MDP0000748916 10.0, 4.2  48.8 6 21.6 MDP0000199009 8.4, 5.3 62.8 6 21.5 MDP0000143611 1.8, 2.8 17.9 8 46.7 MDP0000166302 1.6, 2.1 18.9 8 24.5 MDP0000278475 3.3, 4.3 34.8 8 21.8 MDP0000640906 4.1, 8.1 85.9 6 28.0 ¹Fold difference of biomarker levels at 2 weeks between GH (highest risk) and GLE1 (lowest risk). ²Percent gene expression change in GH harvest to 2 weeks. ³The time (in weeks) between elevated biomarker levels in high risk fruit and symptom development at 3 months. ⁴Percent change in gene expression in high risk fruit from 2 to 8 weeks.

As apple and pear fruit transition through the supply chain, they undergo many stress events. Our invention allows for an easy means for interrogating fruit undergoing these transitions to assess risk for developing these disorders. FIG. 6 provides a scheme for some of the ways which our biomarker-based risk assessment scheme can be used to direct storage and marketing decisions that can mitigate or avoid disorder development.

All publications and patents mentioned in this specification are herein incorporated by reference to the same extent as if each individual publication or patent was specifically and individually indicated to be incorporated by reference.

The foregoing description and certain representative embodiments and details of the invention have been presented for purposes of illustration and description of the invention. It is not intended to be exhaustive or to limit the invention to the precise forms disclosed. It will be apparent to practitioners skilled in this art that modifications and variations may be made therein without departing from the scope of the invention. 

We claim:
 1. A method comprising: a) isolating mRNA from peel tissue or cortex tissue of at least one apple or at least one pear; b) performing reverse transcription PCR on said isolated mRNA; and c) assaying the level of expression of a set of biomarkers, wherein the set of biomarkers consists of: MDP0000848515, MDP0000238780, MDP0000260007, MDP0000153149, MDP0000585315, MDP0000273646, MDP0000216786, MDP0000180580, MDP0000737425, MDP0000298967, MDP0000808492, MDP0000273866, MDP0000353053, MDP0000910032, MDP0000145050, MDP0000263844, MDP0000158999, MDP0000547254, MDP0000196325, MDP0000224653, MDP0000321382, MDP0000270602, MDP0000233661, MDP0000665342, MDP0000246831, MDP0000823528, MDP0000408705, MDP0000518327, MDP0000291249, MDP0000154589, MDP0000202817, MDP0000590954, MDP0000312397, MDP0000213383, MDP0000529726, MDP0000312071, MDP0000639894, MDP0000307665, MDP0000183676, MDP0000754521, MDP0000797616, MDP0000818877, MDP0000782908, MDP0000266443, MDP0000562305, MDP0000228366, MDP0000361351, MDP0000737001, MDP0000412192, MDP0000223032, MDP0000149492, MDP0000264361, MDP0000125882, MDP0000498460, MDP0000163006, MDP0000225132, MDP0000329063, MDP0000170865, MDP0000665685, MDP0000196079, MDP0000200783, MDP0000182956, MDP0000862371, MDP0000321792, MDP0000441757, MDP0000313657, MDP0000599531, MDP0000297583, MDP0000272980, MDP0000317502, MDP0000268175, MDP0000722139, MDP0000637194, MDP0000125700, MDP0000287262, MDP0000745534, MDP0000164966, MDP0000389794, MDP0000318068, MDP0000322237, MDP0000225326, and MDP0000125411. 